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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 750601 (2009) https://doi.org/10.1117/12.855337
This PDF file contains the front matter associated with SPIE Proceedings Volume 7506, including the Title Page, Copyright information, Table of Contents, Introduction, and the Conference and Symposium Committees listings.
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Il-Min Lee, Hwi Kim, Junghyun Park, Dawoon Choi, Byoungho Lee
Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 750602 (2009) https://doi.org/10.1117/12.837728
In this study, investigations on the diffractive optics with plasmonics and metamaterials are presented. The object and the
scope of this presentation are mainly on introducing the
state-of-arts in field of diffractive optics with plasmonics and
metamaterials. Including recent studies made by our group, several numerical and experimental results will be presented.
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Chiung-Fang Huang, Jeou-Long Lee, Yung-Kang Shen, Yi Lin, Chih-Wei Wu
Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 750603 (2009) https://doi.org/10.1117/12.837716
This research points out the brightness field and luminance distribution of the microstructure of a light guiding plate by
micro injection molding (MIM) and micro injection-compression molding (MICM). The process of a light guiding plate
includes photo-etching, micro molding techniques (MIM and MICM), and optical field measurement. The results show
that the luminance of microstructure of light guiding plate made by MICM is better than those made by MIM. The
results also indicate the most important processing parameter is the mold temperature for the luminance distribution of
light guiding plate whether made by MIM or MICM. The maximum luminance of the light guiding plate is the 80 Nit
(cd/m2) on micro molding. The brightness field distribution of light guiding plate made by MICM is more uniform than
those made by MIM for the same processing parameters. The micro injection-compression molding is a more suitable
process than micro injection molding for the fabrication of light guiding plate on a backlighting unit.
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Shu Wen Li, Fong Zhi Chen, Don Yau Chiang, Din Ping Tsai
Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 750604 (2009) https://doi.org/10.1117/12.850106
This talk aims to introduce the general missions, organization, human resources, and research fields of Instrument
Technology Research Center in Taiwan. The four main research fields ranged from electro-optics and remote sensing,
nanotechnology and bio-medical, vacuum and thin-film technology, and instrumentation and auto-system engineering
are introduced, trying to impress you the center activities and to seek for the research collaboration opportunities with
better mutual understanding.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 750605 (2009) https://doi.org/10.1117/12.848242
We present a new high-speed lifetime measurement scheme of analog mean-delay (AMD) method which is suitable for
studying dynamical time-resolved spectroscopy and high-speed fluorescence lifetime imaging microscopy (FLIM). In
our lifetime measurement method, the time-domain intensity of a decaying fluorescence light source is acquired as an
analog waveform, and the lifetime information of the source is extracted from the calculated mean temporal delay of the
waveform.
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Saburo Uchida, Hao Zhu, An Kang Yang, Jing-Nan Liu, Yoshihisa Uchida
Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 750606 (2009) https://doi.org/10.1117/12.840317
An automatic three-dimensional shape measurement system using an optical spatial modulator and robot arm has been
proposed. The system is composed of an optical spatial modulator from which grating patterns are projected on the
surface of the object, a digital camera controlled by a robot arm, and a computer. The patterns on the surface of the
object were taken into the computer by the digital camera, and the 3D coordinate of the surface of the object was
calculated by modified 3D coordinate conversion equations. The three dimensional shape was measured without any
contact in short time in the system. The system was improved using mechanical and optical method and data analysis by
modified program. Using zoom lens in the camera, the measurement accuracy and range were improved by using correct
proofreading factor per camera pixel and reasonable threshold setting. In this modified system, proofreading factor per
camera pixel are measured as a zooming factor, therefore this system don't need to use camera factor and is convenient
system.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 750607 (2009) https://doi.org/10.1117/12.840120
Photon Correlation Spectroscopy (PCS) is one of the important methods for the measurement of nanoparticles' effective
diameter and polydispersity. Noise has a significant impact on the measurement accuracy. To reduce the effects of noises
on the measurement results of nanoparticles' effective diameter and polydispersity is an important means to improve the
measurement accuracy. The theory of PCS is presented. The effects of noises on autocorrelation function (ACF) and
inversion results of nanoparticles' effective diameter and polydispersity are introduced. The limitation of baseline
selection method in weak noise situation is pointed out. Original photon scattering signal was acquired using high-speed
acquisition method and the characteristic of photon signal were analyzed. The effects of noises with different strength
levels on ACF and inversion results were simulated. Based on the baseline difference, more accurate results were
achieved using the method of eliminating the distorted ACF caused by strong noises. The effectiveness of this method to
improve the measurement accuracy was proved with example.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 750608 (2009) https://doi.org/10.1117/12.838131
Tea polyphenols (Tp) and free amino acids (Aa) are the most important quality materials in tea
drinks. Due to the high number of samples to be analyzed, new analytical techniques providing fast and
reliable data about the quality are essential. Therefore, a portable near-infrared spectroscopy (NIR)
analyzer was developed for real-time, continuous and quantitative determination of Tp and Aa in tea
drinks. The portable NIR tea drinks analyzer is composed of a lamphouse, a temperature-controlled
sample chamber, an optical fiber and an InGaAs array mini grating spectrometer. The analyzer is
compact, lightweight and robust with no movable elements. The software with the functions of
spectrum acquisition, model establishment, method selection and real-time analysis was also developed
for the analyzer. Using partial least squares (PLS) regression, the calibration models for the
quantification of Tp and Aa were established with reference to the GB methods (the national standard
methods). The values of root mean square error of cross validation (RMSECV) of the models for Tp
and Aa calibration were 0.059 mg/mL, 0.005 mg/mL, the values of the correlation coefficients (R2)
were 0.99 and 0.98 respectively. The relative standard deviation (RSD) of ten repetitive testing were
3.17% and 4.15%. It suggested that the portable NIR tea drinks analyzer could be a fast and reliable
alternative for tea drinks quality testing.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 750609 (2009) https://doi.org/10.1117/12.837566
Optical coherence tomography (OCT) is the cross-sectional imaging of biological tissue based on the
low-coherence interferometry, where the image resolution is around 10 ìm with the imaging depth of 1 to 2 mm.
Since its first demonstration, OCT has been developed intensively for clinical diagnoses of ophthalmology and
arteriosclerosis. Beside the clinical applications, OCT is used for analysis of physiological functions underneath the
human skin surface. Recently, we proposed and demonstrated the dynamic OCT for in vivo observation of
physiological functions of small organs underneath the skin surface. In the dynamic OCT, tomographic images are
obtained time-sequentially for tracking of the dynamics of eccrin sweat glands and peripheral vessels. In the last
three years, the dynamic skin physiology has been analyzed using both time-domain (TD) OCT and swept source
(SS) OCT. In this paper, we present progress of OCT as well as the dynamic analysis of mental sweating and
pulsation of a small artery in synchronization with the heartbeat using SS-OCT.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75060A (2009) https://doi.org/10.1117/12.838063
Current analysis for spectroscopic optical coherence tomography (SOCT) signals is limited by an uncertainty
relationship between time (depth) and frequency (wavelength). Various joint time-frequency distributions (TFDs)
can meliorate the limits to obtain the best information. Synthesized signals which correspond to three typical
SOCT signals in the Fourier-domain under different SOCT imaging schemes, were generated and validate several
different TFDs, including short time Fourier transform (STFT), continuous wavelet transform (CWT),
Wigner-Villy distribution (WVD), and smoothed pseudo WVD (SPWVD). We found that different SOCT
imaging scheme requires different optimal TFDs. STFT offers the most reliable and fast time-frequency (TF)
analysis, which is appreciate for retrieving the absorption spectra from a homogeneously absorbing media; WT
offers the best spatial resolution or the best spectral resolution locally; WVD generate the most compact TF
analysis, but suffers from the artifacts due to the cross terms. SPWVD is applied to yields high spectral and
spatial resolution and be free from the artifacts and limitations commonly observed with WVD.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75060B (2009) https://doi.org/10.1117/12.838166
A continual zoom system with high speed and visible wavelength range is designed. The lens has the
advantages of high etendue and telecentricity in image space. It can be used properly as the fore objective of
imaging spectrometers with high resolution since its image size doesn't change with the defocus of detector
plane and its illumination in the plane is rather uniform. According to the characteristics and performance of
the optical system of our hyperspectral imager, the structural selection and the initial parameter calculation
are introduced in detail. The designed optical system with mechanical compensation is presented. The zoom
ratio of the lens is 4 and the relative aperture 1:2. Its effective focal length is 55mm at short focus end and
220mm at long focus end. Its field angle is from 2 degrees to 8 degrees. Its distortion is lower than 0.6 per
cent. The MTF value at the spatial frequency of 35lp/mm is higher than 0.77. The evaluation of its image
quality shows that the designed zoom system can meet the requirements of our hyperspectral imager as its
fore objective.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75060C (2009) https://doi.org/10.1117/12.837544
Research Project of Optical Information Technology is presented, where, so called, CAD system for lens design and analysis was established for the purpose of acceleration on the development of optical devices. These devices will be implemented into new types of optical information systems such as multi-pixel objectives, etc.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75060D (2009) https://doi.org/10.1117/12.838099
In this research we suggest partitioning the lens surface area of an optical design to decrease the field curvature and
astigmatism while satisfying the miniaturization demand of a camera module carried by a cellular phone.
We compensate for the field curvature corrected by the imaging lens and / or the astigmatism of an optics element, and
we partition the lens surface to establish a difference in shape between the center domain of the lens and the surrounding
domain of the lens. The center domain and the surrounding domain of the lens is each decided by shape to compensate
for the field curvature and astigmatism individually.
Based on the above-mentioned procedure, this presentation suggests means to raise the optical performance while
satisfying the miniaturization of a camera module carried by a cellular phone.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75060E (2009) https://doi.org/10.1117/12.838201
The design of a visual optical system for eye and vision examination using video-based chart is investigated in this
paper. It produced a virtual image larger than the original display and much farther away from the tester eye. The
diagonal length of a virtual image is enlarged as the optical system is designed to match the resolution of human eye. The
optical system provides a wide observing area. The optical system also has a large field of view. It has a comfortable
long eye relief. The design results and image analysis are also discussed in this paper.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75060F (2009) https://doi.org/10.1117/12.837220
The modern spacecrafts harassed by the "lost-in-space" problem frequently desire for retrieving their orientations
autonomously while performing missions especially in deep space. Star sensor becomes a preferred assistant which
determines the attitudes with very high accuracy. Autonomous APS star sensors have been the development trends in
virtue of their lighter weight, smaller size, less power, and the ability to acquire attitude knowledge autonomously. By
analyzing the principle of attitude measurement applying star identification algorithm, the requirements for the
aberration correction and imaging quality of their optical systems are discussed. The statistics of star numbers in
different orientations is analyzed making use of guide star catalogs established with various limiting star magnitudes and
fields of view (FOV). The method to determine parameters of the optical system including aperture size, FOV, focal
length and spectrum range is introduced. These parameters meeting the demand of the Pyramid identification algorithm
utilized in this paper to realize the autonomous attitude reorganization in any orientations are calculated. Accordingly, a
star camera is designed with STAR 1000 APS as its detector. Its focal length, aperture diameter and circular field of view
are 43.56mm, 27.3mm and 20 degrees, respectively. Structure selection and aberration correction schemes are presented.
Aberrations including coma, astigmatism, and distortion and lateral color are corrected, and spherical aberration and
longitudinal color are controlled. This camera is telecentric in the image field which assures that the star identification is
still valid even though the image plane suffers from a deviation as a result of the environmental alteration and
manufacture errors.
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Hong Chang, Zhi-gang Fan, Shou-qian Chen, Yi-ming Cao
Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75060G (2009) https://doi.org/10.1117/12.837986
A simplified mathematical model was proposed to describe the relationship between image quality and temperature
gradient. It can be used to determine the maximal allowable temperature gradient in which optical system was
applicable, as well as the applicability of optical system in given temperature gradient condition. Firstly, under some
assumption conditions, the thermal deformation of optical surface and refractive index distribution caused by
temperature gradient distribution were analyzed, and a simplified mathematical model was built to describe the impact of
radial temperature gradient on optical parameters. Secondly, the model was validated by using finite element analysis
software analyze an infrared lens. Finally, an application example was given. The image quality of a refractive infrared
optical system in thermal environment with radial temperature gradient was analyzed by using the mathematical model
proposed above and optical design software.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75060H (2009) https://doi.org/10.1117/12.838127
Integral floating system is recent development of autostereoscopic display. It consists of the integral imaging system and
the floating device as depicted in the name. The integrated image forms a floating 3D image in the vicinity of the
observer through the floating device which can be either a convex lens or a concave mirror. The integral floating system
can provide dynamic 3D images with great feel of depth. This paper reviews the main concepts and the special
characteristics of the integral floating system. Moreover, some improvements and analysis will be presented with some
basic experimental results.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75060I (2009) https://doi.org/10.1117/12.839659
Free-form-surface prism (FFSP) based HMDs have widespread application value and prospect in the fields of virtual
reality and augmented reality. A key problem of the FFSP-based HMDs is the correction for optical distortions. The
distortion correction can be performed with an additional optical system, but the additional system will add the expense
and complexity of the HMDs. This paper presents a software-based method to correct optical distortions in FFSP-based
HMDs, in which a distortion map with predistortion information is constructed to correct the distortion and a pixelfusion
process is performed to improve the quality of the predistortion image. The correction process and the fusion
process are accomplished by GPU in real-time. The performance of the proposed method is analyzed and validated via
an inspection system, in which a high-performance CCD camera is used to evaluate the result of the correction and
fusion.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75060J (2009) https://doi.org/10.1117/12.837598
When coherent light scattered from a rough surface, speckle is detected by an intensity detector. In
laser projection, speckle severely affects the image quality and therefore must be suppressed. It is
mostly achieved by vibrating or rotating a diffuser or a diffractive optical element (DOE) in
illumination system. These methods can effectively reduce the speckle, but also cause energy loss of
the illumination light due to source extension. A novel way of speckle suppression, which is in
principle by varying incident light angle continuously within a light pipe, is proposed. Both theoretical
and experimental systems are built. Experimental results show that the new method brings the speckle
contrast down to 3.45% and preserves more than 90% energy.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75060K (2009) https://doi.org/10.1117/12.838459
A new polyfunctional photo-thermo-refractive (PTR) glass doped with erbium and ytterbium has been developed for the
first time. The glass combines itself three opportunities: fabrication of lasers or amplifiers, recording of volume Bragg
gratings (VBG) or holographic optical elements (HOE), fabrication of planar waveguides or fiber. The glass can be
classified as optical polyfunctional material. The polyfunctional PTR glass exhibits good spectral, luminescent, and
lasing characteristics, as well as photorefractive and ion exchangeable properties. Different HOE and devices on the base
of the polyfunctional PTR glass have been demonstrated for photonic applications.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75060L (2009) https://doi.org/10.1117/12.837825
Liquid prism is a sort of prism composed of liquid as the body. It can singly work or be integrated on the
optofluidic chip, which takes advantage of the unique properties of liquids to create adaptive systems. The optical
properties of the prism can be flexibly changed by filling liquid or not as well as by adjusting the concentration of liquid.
Taking advantage of this point, the liquid prism can be applied in optical communication, dye lasers, liquid analysis in
biochemistry and medicine fields, optical imaging system, optical measurements and optical experiments, etc.. The liquid
prism can serve as both the refraction prism and reflection prism in application. Here an optical switch based on the
liquid prism and two approaches to analyze liquid by the liquid prism are presented and the optical properties of
corresponding liquid prisms are discussed. Here the liquid prism is used to change light path in the optical switch or to
analyze the refractive index, density, concentration and dispersion of liquid.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75060M (2009) https://doi.org/10.1117/12.837999
A corner-cube-based integrated retroreflective structure is introduced as a novel instrument for free-space optical (FSO)
communications. The structure is composed of three independent and mutually-orthogonal silicon photodiodes (PDs)
and is shown to have capabilities for real-time optimization and control by way of differential photocurrent sampling
between adjacent PDs. A balanced system with minimal differential signal levels is ultimately indicative of perfect
optical alignment and differential triangulation is used to obtain this optimized alignment. Such a scenario is ideallysuited
to bi-directional FSO communication links with the fundamental requirements for optical retroreflection,
detection, and modulation. Both active downlink and passive uplink FSO communications are demonstrated.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75060N (2009) https://doi.org/10.1117/12.839587
A novel scanning fiber optical system for multi-channel optical switch has been demonstrated. This scanning fiber
system consists of motor, photoelectric encoder, EPOS position controller, Field Programmable Gate Array (FPGA),
fiber laser, transmitting energy fiber bundle, reflector,
five-dimensional optical adjustable mounts, etc. In this device, the
control system is composed of EPOS position controller and FPGA. Furthermore, the photoelectric encoder is directly
connected to the central shaft of the motor to read its position information. The reflector is slantways fixed on the other
end of the motor central shaft. Also, the fiber bundle is fixed by optical adjustable mounts to achieve slight position
adjustment, which is used as launching system of this configuration. In the operation process, the motor in uniform
rotation state drives the photoelectric encoder and the reflector at the same angle velocity. The photoelectric encoder
reads the incremental signal and absolute position signal of motor, and then sends them to EPOS position controller and
FPGA respectively. FPGA sends square wave signal to the fiber laser under the control of EPOS position controller and
FPGA. Triggered by the square wave signal, the fiber laser emits a laser pulse to the center point of the reflector. At the
same time, the reflector makes the laser pulse transmitting into a certain transmitting energy fiber according to the angle
of the reflector at that moment. Therefore, with the motor rotates at uniform speed, the laser pulse is sent to different
fibers, by which multi-channel optical switch is completed.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75060O (2009) https://doi.org/10.1117/12.838672
The paper demonstrates a novel multi-wavelength ring laser for light source in dense wavelength division multiplexing
(DWDM) system, which consists of semiconductor optical amplifier (SOA), high-birefringence fiber loop mirror (Hi-Bi
FLM), polarization controller, etc. Among these devices, SOA is used as optical gain medium; Hi-Bi FLM serves as
wavelength selecting comb filter. When SOA is driven with higher injection current, the number of output
multi-wavelength, and the single channel power and total power all increase gradually due to the inhomogeneous
broadening in SOA gain medium. When SOA is driven with a 280-mA dc current at room temperature, it tends to gain
saturation state, and simultaneous stable oscillation of 18 lines with the equal line spacing of 0.8 nm (100 GHz) is
obtained in the range of 1571.3 nm ~ 1587.1 nm. The power fluctuation among the lasing lines is less than 6 dB and
each line-width is less than 0.118 nm. Furthermore, the signal to noise ratio is greater than 25 dB. By adjusting the
polarization controller in Hi-Bi FLM, the frequency tuning range of the overall output multi-wavelength is up to 50
GHz.
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Chuang-xin Zhang, Yang Jiao, Shi-guang Yang, Xiao-quan Sun
Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75060P (2009) https://doi.org/10.1117/12.838170
In order to meet some fields' need for the laser beam of variable divergence angle, a divergence angle program control
system was designed in this paper. The system realized the automatic control, based on "computer + stepping motor+ the
collimation system". It consisted of a collimation system, a control software unit, a hardware unit and the detection unit.
In the collimation system, the relationship between the output beam divergence angle and the distance between the two
lenses was found by theoretical analysis. Then the output beam divergence angle could be controlled precisely when the
distance was altered precisely by stepping motor. Experiment was carried out to validate feasibility of the design. The
result showed that the design was effective and it was easy and fast to alter control beam divergence angle, based on the
design.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75060Q (2009) https://doi.org/10.1117/12.839158
Sculptured surfaces are increasingly used in design of modern compact optical systems. Null test with computergenerated
hologram (CGH) using commercial interferometer is generally adopted to test sculptured surfaces. To quickly
estimate the maximum line density of the null CGH and determine whether the sculptured surfaced can be null tested or
not, the best fitting sphere of the sculptured surface under test is firstly calculated and the deviation between the
sculptured surface and the best fitting sphere is calculated along the normal direction of the best fitting sphere. The
direction of optical axis and the optical arrangement are optimized to obtain a null CGH with minimum line density.
And now the deviation between the sculptured surface and the best fitting sphere is calculated along the normal direction
of the sculptured sphere, which is in accordance with the practical design of the null CGH. Simulated results show the
validity of the method of the best fitting sphere, the estimated and designed maximum line density of the null CGH is
accordant. Finally CGHs for null test of two sculptured surfaces are designed.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75060R (2009) https://doi.org/10.1117/12.838389
For the recent years, the vigorous development of the electro-optic industry, particularly the digital camera and the
cellular phone camera, has placed a larger and larger demand for the optical devices. Among the optical lens, the
aspherical optical lens plays the key component because the aspherical lens may provide better imaging quality then the
spherical lens does. For the manufacturing reason, the aspherical lens is prone to a decenter or tilt issue with respect to
the optical axes of its two surfaces. To measure decenter and tile error specifically would help to obviate the deficient
lens, but most of the present measuring method can't provide this function. This paper proposed a new method to
specifically measure the decenter and tile of lens by observing the interferogram of each surface. And the corresponding
measuring instrument, which contains interferometer and motion stages, was introduced as well.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75060T (2009) https://doi.org/10.1117/12.838169
A two-mirror catadioptric system with corrective lens groups is adopted in the remote sensing camera of microsatellite.
Compared with the refractive system, it has the advantage that its performance is hardly influenced by thermal
environment. Stray light results in image blur and the contrast reduction of the camera. It is necessary to analyze and
control it. In traditional way, stray light can be effectively suppressed with a long baffle, which is not suitable for
microsatellites with limited space. And a compact one with high performance is designed. First of all, model of the
camera is set up and its stray light is analyzed with Lighttools. The main and the primary baffles are designed and
optimized. Then the point source transmittance is calculated to evaluate and verify the designs. Its veiling glare index is
also simulated and calculated based on black-patch measurement.
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Haotong Ma, Fengjie Xi, Pu Zhou, Xiaolin Wang, Yanxing Ma, Xiaojun Xu, Zejin Liu
Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75060U (2009) https://doi.org/10.1117/12.838072
A novel method for testing the collimation of laser beam with defocus grating is presented. Defocus grating
combined with lens of short focus length allows simultaneous imaging of two defocused spots in the ±1 diffraction order
spot. When the well collimated beam passes through the defocus grating, the diameter of the ±1 diffraction order spot is
equal to each other. The relationship between the collimation of the incident beam and diameters of the ±1 diffraction
order spots are analyzed in detail. The position of the pinhole and pointing errors of the collimation system can be
detected by the defocus grating. The feasibility of this method is verified experimentally on the collimation of the He-Ne
laser. The method which has a simple data processing algorithm does not require any referencing or fringe analysis and
can be implemented full-optically.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75060V (2009) https://doi.org/10.1117/12.852463
We determine field distributions in the pupil of a high NA lens, that give, for a given power incident on the lens, the
maximum electric field amplitude in focus in a specific direction. We consider in particular the cases of maximum
longitudinal and maximum transverse components. The distribution of the maximum longitudinal component in the focal
plane is narrower than that of the focused Airy spot and hence can give higher resolution in imaging.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75060W (2009) https://doi.org/10.1117/12.838174
A swerving mathematical model was established after stating the shortage of the present AFS swerving algorithm. The
conception of 'expected lighting distance' was extended to 'expected lighting bound' and approximate treatment of
geometry of light beam falling to ground of headlamp was processed. The expected lighting bound was ascertained and
the lighting range of turning angle of headlamp was calculated. The calculation formula of turning angle of headlamp
was worked out. It was indicated that the turning angle of inside and outside of headlamp calculated by revised algorithm
was reasonable by comparing calculation. Finally the control strategy about the turning angle of inside and outside
headlamp when turning was worked out. It is of practical significance in promoting the active safety, reducing the traffic
accidents caused by insufficient angle and range of irradiation of headlamp.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75060X (2009) https://doi.org/10.1117/12.839669
The cophase calibration system is applied for adaptive optical phasing with a large segmented telescope
mirror, which commonly uses 3-DOF micro-position device with three micro-displacement actuators to drive segments in
parallel, making the entire segmented mirror in phase at one time and obtaining the desired sensor readings accordingly.
In order to run the active control system to make the segments cophase, it is necessary to calculate the coordinates of the
three driving points correctly for segmented mirrors specially limited in geometric parameters, especially for the stability
and sensitivity of the micro-positioning device. The mirrors will be supported on a massively parallel system of
electrostatically controlled, interconnected microactuators that can be coordinated to achieve precise actuation Adjusting
posture of each segment independently so as to obtain the co-phasing errors and to control them at a nanometer level.
Several generations of individual actuators as well as parallel arrays of actuators with segmented mirrors have been
designed. A mechanical model of the system has been constructed and simulated numerically to obtain the actual position
of three actuators using the RPY angle describing means. A
three-channel parallel control scheme has been developed
and implemented on a segmented mirror array. A universal evaluating method for optimization is prompted and will be a
good guide to the design optimization of micro-positioning device for each segmented mirror when the mirrors are groundbased
horizontally.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75060Y (2009) https://doi.org/10.1117/12.838065
It is quite important to study the wavefront coding characteristics further for deeper understanding the theory of
wavefront coding, and improving the quality of final image restoration and the coding performance of the system. First
of all, a model to study the coding relationship between the incident ray and the emerging ray in different parts of
aperture was established by ray tracing method based on a finished design of the handy wavefront coding system for
measuring the crack width in concrete. Second, the rotation relation between the phase mask and its corresponding PSF
was discussed. Finally, the analysis and evaluation of the shape, size and the intensity distribution of PSF along with
different fields were completed. The results show that the PSF azimuths of the coded system vary with the different
placement of phase mask and the PSF expands seriously in the meridian direction (expanding rate 59.9%) while nearly
remains the same in the sagittal direction when the object field increasing. It will help us to divide isoplanatic regions
and modify the PSF for the final image restoration.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75060Z (2009) https://doi.org/10.1117/12.840608
A new type of electrically controlled optical chopper based on Holographic Polymer Dispersed Liquid Crystal (HPDLC)
grating array is demonstrated in this paper. H-PDLC grating can be erased and become transparent to the incident
beam when applied the external voltage. H-PDLC grating recovers and diffracts incident light in the original way after
removal the driving voltage. Thus the intensity and the frequency modulation to the incident beam can be achieved
through adjusting the voltage applied on the H-PDLC cell. Compared with a conventional chopper, the H-PDLC gratings
exhibit more advantage like much faster response time, the grating array is much more integrated and easier to be
fabricated etc. Moreover, electro-optical properties including response time and diffraction efficiency of H-PDLC
gratings are investigated. By optimizing some parameters, H-PDLC chopper cell with a microsecond response time and
high diffraction efficiency is obtained. The driving voltage of
H-PDLC can be reduced through controlling the droplet
size in H-PDLC and the thickness of the grating. As the application example, the chopper is applied in the new born
frequency division multiplexed multichannel fluorescence confocal microscopy so that it can improve the temporal and
spatial resolution ability of the microscopy system.
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Poster Session: Spectrometry, Micro, and Physical Optics
Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 750610 (2009) https://doi.org/10.1117/12.837525
The imaging spectrometer for remote sensing of hazardous clouds is required for high performances, and expected to
satisfy the performances simultaneously, such as spectral and spatial resolution, optical throughput, real-time capability
and stability. Recent developments in long-wave infrared focal plane array combined with the mastering of Fourier
transform spectrometer technology allow the realization of two kinds of infrared imaging spectrometer with large
aperture static interferometer for detection, monitoring and localization of hazardous clouds from long distance.
In this paper, the basic structures and operating principles are introduced at first. Then the performance parameters are
analyzed and the restricting equations of the parameters are deduced. At last, the feasibility for remote sensing of
hazardous clouds is demonstrated.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 750611 (2009) https://doi.org/10.1117/12.843113
UV/VIS spectroscopy has been proved to be an effective way for monitoring water quality non-invasively. However, the
present method can only provide the synthesized information of the water pollution by using the sum parameters like
TOC, DOC or TSS. The changes in the composition of the water cannot be detected. For monitoring water polluters, a
UV/VIS spectrometer for in-situ and on-line measurements has been developed. It utilizes the UV/VIS range (200-750
nm) for the pollutant component measurement. A Xenon lamp is used as a light source. Fiber sensor is used as a probe
and the diffuse reflectance spectra of the water are measured for the in-situ application. In order to measure the different
polluters, a diffuse reflectance board, the position of which can be adjusted to the optical length of the measured
polluters, is installed the front of the fiber. The spectra of the water can be measured in 5s. Then the method of the
differential optical absorbance spectroscopy (DOAS) is employed to decrease the interference from the common mode
noise. Finally, the polluter's concentrations can be derived by calibration between the UV/VIS spectra and the reference
concentrations of the calibrate sample set by using
Partial-Least-Square (PLS) regression.
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Honglian Li, Zhilei Zhao, Yanping Pang, Yanfeng Wang, Xiaoting Li
Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 750612 (2009) https://doi.org/10.1117/12.843357
Near-infrared (NIR) diffuse reflectance spectroscopy and pattern recognition techniques are applied to develop a fast
identification method of Jinhua ham. The samples are collected from different manufactures and they are nineteen Jinhua
ham samples and four Xuanwei ham samples. NIR spectra are pretreated with second derivative calculation and vector
normalization. The pattern recognition techniques which are cluster analysis, conformity test and principal component
analysis (PCA) are separately used to qualify Jinhua ham. The three methods can all distinguish Jinhua ham successfully.
The result indicated that a 100 % recognition ration is achieved by the methods and the PCA method is the best one.
Overall, NIR reflectance spectroscopy using pattern recognition is shown to have significant potential as a rapid and
accurate method for identification of ham.
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Wei Peng, Soame Banerji, Yoon-Chang Kim, Karl S. Booksh
Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 750613 (2009) https://doi.org/10.1117/12.837291
This paper presents a multi-angle optical analysis device based on surface plasmon resonance (SPR) for simultaneous
biological sample detection. Most applications of optical SPR devices were designed to measure refractive index (RI) of
liquid or gas sample by measuring the signal wavelength or angle, the sensitivity and stability of which is easily affected
by the fluctuation of various interior or exterior test conditions. In this study, we have proposed a multi-channel optical
SPR device which can monitor SPR changes at different wavelengths and angles. The preliminary experimental results
demonstrate the characteristic responses of SPR signals from different angles changes independently correspond to the
refraction index changes of the liquid samples with which they are in contact. The experimental results confirmed that a
practicable high-sensitivity multi-channel SPR biological measurement instrument could be completed with further
developments.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 750614 (2009) https://doi.org/10.1117/12.837849
We use finite difference time domain (FDFD) method as rigorous vector analysis model to simulate the focusing process
of diffractive microlens (DML). Differing with most analysis model which the near field distributions are calculated by
FDTD and then far field are obtained by using of propagation method, we obtain the fields in whole computational space
by using of FDTD only. The advantages are that all the results are vector based and the computational time is saved
greatly. In this paper, we present two methods to obtain wave amplitude, one is comparison method, and the other is
integral method. Depending on wave amplitude in the whole computational space, one can conveniently obtain
distributions of electric field intensity and calculate the time-average Poynting vector. We also present the formulation
for calculating diffractive efficiency of DML based on time-average Poynting vector which denotes energy flow. As
demonstration, a DML is analyzed by using of these algorithms. The time depended graphic results of FDTD show the
process of wave propagation. The distribution of electric field intensity illustrates the focusing of the normal incident
light. The focus pattern in the focal plane is also show. The diffractive efficiency of the DML is calculated by using of
the energy flow method in this paper. The results show the high accuracy and efficiency of the model.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 750615 (2009) https://doi.org/10.1117/12.848691
We present our latest research development of the all-reflective Fourier transform imaging spectrometer
based on the principle of wavefront-splitting interference. The optical configuration of this system
includes a set of Fresnel's double mirrors and a number of other reflective telescopes or mirrors. The
major advantages of this system includs higher optical throughput, larger spectral bandwidth, and less
chromatic aberration as compared with conventinal
chromatic-despersion imaging spectrometer . In this
paper ,the optical principle and the prototype device of our system are introduced, and the latest
experimental results from our prototype device are presented.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 750616 (2009) https://doi.org/10.1117/12.837339
We have contrived some new technologies to design new-style LD power supply in order to pursue the high stability of
output current and the reliable working condition. High-performance constant current drive source on the basis of dual
operational amplifier with high sensitive feedback loop and voltage regulator module greatly reduces the current ripple
and improves the stability of output current. Through precise testing, we obtain the results that the output current ripple
is below 0.09% and the output current stable degree is less than 0.03%, which are much lower than those of other existing
ordinary LD power supplies. We have also designed a high-efficiency dual slow-start surge-absorbing loop,
accompanied by a filter network, which has reduced the impact of the surge current effectively. We obtain that the peak
value of surge current is no more than 0.938%, which is advanced in the field of LD power drive designing. Besides, the
protection circuit could make circuit loop stay at a certain unchanged status when it is in over-current condition or not,
which greatly improve the security and reliability of the whole system.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 750617 (2009) https://doi.org/10.1117/12.837430
The influence of statistical noise such as lamp instability, photon shot noise, and detection noise on the signal quality in
rotating compensator based ellipsometry (RCE) is investigated by means of mathematical modeling and simulations. The
results uncover the transfer route from noise to measurement error under different experimental conditions, and thus
provide a basis for noise diagnosis and control in RCE systems.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 750618 (2009) https://doi.org/10.1117/12.837508
VFL-350 (Visual Fault Locator) Light Source is used to check single-mode and multimode optical fiber cables
and components for faults or to locate individual fibers in a bundle. Loss as intrinsic loss (absorbsion and scattering), mechanical loss (splices and connections) are important to estimate the amount of errors in data transmission process (both in single as well as multimode fibers). That is one of the most important parameter of change intensity profile of laser beam. Standard light source that used in this project is an optical pen that have semi guassian beam with out put power 1 mw(class 1) & λ=635 nm that make follow result: Beam propagated from this light source have semi guassian shape and result of some transverse mode.
Beam intensity profile of this light source after launching in multimode fiber optics (length=2m & connector:
have 20% loss compared by beam intensity profile of optical pen.(connector loss). Situating a filter in path of multi mode fiber optic, don't any change in beam intensity profile of multi mode fiber optics.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 750619 (2009) https://doi.org/10.1117/12.837725
A new high-power blue LED light source system for portable OSL instrument is presented. High-power blue LED light
source system with optical components are arrange in order to realize high radiation intensity of the stimulate light
source, high-power blue LED luminous intensity are controlled by multi-channel controllable constant source. The
experiment results show that the system is simple, small, blue uniform stability and high strength, as the stimulate light
source for the portable OSL instruments.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75061A (2009) https://doi.org/10.1117/12.837843
In this paper we present a new polarization multiplexing method for the micro LCOS projector optical system. We use
calcite to separate the P and S light with respect to the PBS used in the traditional way. The specific method is described
as follow: the special lens group or TIR is used to collimate emission ray from the light source. The ray from the lens is
changed into approximate parallel light. A convergent component is used to get the convergence light on the exit facet of
the calcite. Because of the structure characteristic of the calcite, the angel between optical axis of crystal and cleavage
surface is 45 degree. Then we can get two separate convergence light spot on the exit facet of the calcite which stands for
the P and S light respectively. The linear half wave plate is used to convert the state of the polarization. Then light pipe
and relay imaging lens are used to meet the requirements of the uniformity and incident angle on the micro LCOS chip.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75061B (2009) https://doi.org/10.1117/12.837935
The near infrared spectroscopy (NIRS) is the main apparatus for
near-infrared spectrum analysis, which has been widely
used in agriculture, biology, petrifaction, foodstuff, medicament, spinning and other fields. In this paper, we successfully
designed a high-sensitivity, high-resolution, high-speed, real-time and USB2.0-based near infrared spectroscopy data
acquisition system, and discussed the design ideas of
multi-functional NIR spectrometer on hardware and software. On
the basis of deeply analysis of the construction and principle of near infrared spectrometer and principle of optics, we set
up the near infrared spectroscopy system, developed the software system of data acquisition and data processing, did
some preliminary experiments and made analysis on the results. The results of the experiments demonstrate the
instrument can reflect the spectral characteristics of YAG laser and meets the design requirements.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75061C (2009) https://doi.org/10.1117/12.838097
Free space laser communication (FSOC), which features high anti-EM interference capability, good security, is the
important method of the communication between ships. According to the ship motion equations, this paper mainly
discusses the motion law of the ship in the wind waves by using linear system theory. We use a four-degree-of-freedom
platform with a horizontal, a vertical and two rotating motions to simulate the laser movement caused by ship movement
in the wind waves, and give, as an example, a realization of laser movement caused by ship roll movement in the wind
waves. This platform can be used in the lab for the ship-borne free space optical communication (FSOC) system
conveniently and accurately.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75061D (2009) https://doi.org/10.1117/12.839656
All-optical SOA-based non-inverted wavelength conversion of 80Gbit/s by using a structure which consists of a SOA
and a followed optical filter is demonstrated. Result illustrates that SOA-based wavelength converter has a weak
nonlinear performance if the optical pulse with a wide spectrum. Moreover, a non-inverted 40Gbit/s and non-inverted
80Gbit/s All-optical wavelength conversion using this simple structure with a narrow spectrum are also demonstrated.
Result shows shat the wavelength conversion at 40Gbit/s can be easily achieved, the wavelength converted eye diagram
is clear. However, the eye diagram is not very clear at 80Gbit/s due to the performance of filter.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75061E (2009) https://doi.org/10.1117/12.837356
Efficient pumped coupling is one of the important technologies of diode pumped solid state laser system applying
end-pumped structure. This work present a novel pumped coupling optical system based on microlens arrays. In the
coupling system, the light of laser diode stack is incident on an imaging microlens array, that cuts the beam into a
number of beamlets. Subsequently these beamlets are overlapped in the pumped surface of laser media through an aspheric focusing lens. Then a high homogeneity pump field is realized. Furthermore, for different aspect ratios of the
homogenized spot two microlens arrays with crossed cylindrical lenses are used to match different pump field size. Such coupling system was designed by ray tracing method using ZEMAXTM
Non-Sequential Components analysis tools. The non-sequential raytracing simulation shows that a 5 × 5 mm2 Top-Hat intensity pump profile was got at a working
distance of 40 mm and the homogeneity of the intensity distribution is better than 90%. In comparison with the traditional coupling optical system homogenization by means of microlens arrays is more flexible and requires a reduced
number of optical components.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75061F (2009) https://doi.org/10.1117/12.837684
Now the detection method of performance data of laser warning annunciators is the conventional target board law of
diffuse reflection, this method operation is complex, has poor efficiency, therefore, the study of high efficiency and
fast detection method and testing system has important meaning. A method based on tunable simulating laser pulse in
hemisphere space has been proposed. In order to simulate a laser subject practically to realize the test for annunciators,
the position of a laser source on a hemisphere is controlled, and the output power, wavelength and modulating frequency
of the laser source can be adjusted. The locating mechanical structure of the hemisphere surface applying to stepper
motor drive has been designed, the software system and the circuit has been developed based on the technique, using
AVR microcontroller ATmega16 to fulfill the function of laser power controlling, wavelength adjustment, frequency
modulation and position controlling of hemisphere surface. The method and technique are more efficient compared with
the former method for it can be realized by the mechanical & electrical conjunction. The mechanical and electrical
structures are given and discussed in this paper.
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Yibo Zheng, Liping Jia, Lei Zhang, Jihua Wen, Junjian Kang
Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75061G (2009) https://doi.org/10.1117/12.837708
The temperature distribution in different cooling system was studied. A thermal distribution model of laser crystal was
established. Based on the calculation, the temperature distribution and deformation of ND:YVO4 crystal in different
cooling system were obtained. When the pumping power is 2 W and the radius of pumping beams is 320μm, the
temperature distribution and end face distortion of the laser crystal are lowest by using side directly hydrocooling
method. The study shows that, the side directly hydrocooling method is a more efficient method to control the crystal
temperature distribution and reduce the thermal effect.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75061H (2009) https://doi.org/10.1117/12.838077
Using excellent host of Gadolinium Vanadate (GdVO4), Tm3+:GdVO4 laser has many advantages, such as high heat conductivity, little thermal effect, large stimulated emission cross-section, and low laser oscillation threshold. And due to its stronger and broader absorption spectrum in the 800 nm region, highly-efficient AlGaAs laser-diode (LD) can be adopted as pump source. In this paper, the properties of various kinds of Tm3+-doped laser crystals are compared in the first place. Then by describing the energy transmission process of Tm3+-doped system at the 2 μm band and establishing
the quasi-three-level rate equation, we obtain the expression of threshold pump power and slope efficiency. Moreover,
considering thermal lens effect of GdVO4, the three-mirror folded resonator is analysed using the method of transmission
matrix and optimized numerically. A low-threshold, high-power, and good-stability LD double-end pumping
Tm3+:GdVO4 solid-state laser is designed by the guidance of the optimized resonator parameters. We obtained a
fundamental mode 1920 nm laser output.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75061I (2009) https://doi.org/10.1117/12.839133
A new model is applied to describe the field distribution at the output of the
LDAs. Formalism describing of the far-field radiation patterns of a laser arrays is
presented, base on rigorous solutions of the Helmholtz equations. The
beam-divergence angles normal and parallel to the junction plane are concluded.
Theoretical results presented are in close agreement with the experiments. and the
final result is expressed in a form convenient for diffraction analysis of LDAs beams.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75061J (2009) https://doi.org/10.1117/12.839586
An innovative configuration - two pieces of reflection volume phase gratings superposed is put forward, in order to
highly diffract the ultra-short laser pulse. Based on Kogelnik's coupled wave theory, and discrete Fourier transform, the
diffraction efficiency of the configuration for ultra-short laser pulse is formulated. And the diffraction efficiency for laser
pulse with a Gaussian shape in temporal domain is simulated. The results show that when the two gratings' vectors are
parallel to each other, and their parameters are selected appropriately, the diffraction spectrum of the configuration is
approximately composed of those of the two gratings. The diffraction efficiency of 70fs Gaussian laser pulse can be
improved to 0.96, which is 0.20 larger than that by only one piece of the grating. It is very useful for the application of
ultra-short laser pulse, such as beam deflector with high diffraction efficiency, spectral beam combination, and so on.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75061K (2009) https://doi.org/10.1117/12.839196
This paper reports a new method for piston and tilt control in the laser coherent combining system. Adaptive fiber optics
collimators have been developed to correct beam-tilt. The SPGD algorithm is employed to correct a given wavefront.
The relative parameters which directly influence the algorithm's convergence are studied. The adaptive fiber optics
collimator's working principle is confirmed.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75061L (2009) https://doi.org/10.1117/12.845262
A novel free-space optical (FSO) communication system is proposed in this paper. The beam divergence of transmit
antenna is designed smaller and the receiving antenna is made by large aperture nonimaging optical system. A
transmission mode of "small beam divergence and large receiving aperture" is designed, which can optimize the
detection equation and improve the bandwidth, link distance and reliability of FSO system. The surface accuracy
requirement of nonimaging optical system and the equipments are low. The pulse stretch caused by surface error has
little effect to the bandwidth of FSO system, and satisfies the requirement of most communication.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75061M (2009) https://doi.org/10.1117/12.837049
In this work, the design study of a switchable dual field of view thermal optical system for 3-5 μm is presented. A
mechanical holder switches in and out lenses to the whole optical system to change the focal length from 60. A cooled
320×256 focal plane array with 30 μm pixel pitch is imaging the rays gathered by thermal optics. To avoid vignetting
which is caused by the presence of the detector cold shield, a relay lens is used to image the entrance pupil of optics on
the cold shield.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75061N (2009) https://doi.org/10.1117/12.837447
The paper presents a new optical modeling tool developed for solving the optical sensitivities with respect to air
perturbation. The tool is a Matlab based software package allowing the user to configure the model, select analysis
options and process the results. When assessing the impact of disturbances on high-performance systems, it is critical
that the disturbance models can be fairly representative of the actual disturbances. Partitioning the clam air by many
planes, we can view the air as an array of lens of different index of refraction and the air perturbation as the planes jitter.
The overall model architecture is presented in detail. The overall framework is applied to an integrated model of
telescope to demonstrate its practical use. The simulation results show the air turbulence near two mirrors affect the
performance of system mostly, with the air turbulence near primary mirror being dominant.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75061O (2009) https://doi.org/10.1117/12.837736
The surface shape control is one of the key technologies for the manufacture of membrane mirror. This paper presents a
design of membrane mirror's surface shape control system on the basis of fuzzy logic control. The system contains such
function modules as surface shape design, surface shape control, surface shape analysis, and etc. The system functions
are realized by using hybrid programming technology of Visual C# and MATLAB. The finite element method is adopted
to simulate the surface shape control of membrane mirror. The finite element analysis model is established through
ANSYS Parametric Design Language (APDL). ANSYS software kernel is called by the system in background running
mode when doing the simulation. The controller is designed by means of controlling the sag of the mirror's central crosssection.
The surface shape of the membrane mirror and its optical aberration are obtained by applying Zernike
polynomial fitting. The analysis of surface shape control and the simulation of disturbance response are performed for a
membrane mirror with 300mm aperture and F/2.7. The result of the simulation shows that by using the designed control
system, the RMS wavefront error of the mirror can reach to 142λ (λ=632.8nm), which is consistent to the surface
accuracy of the membrane mirror obtained by the large deformation theory of membrane under the same condition.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75061P (2009) https://doi.org/10.1117/12.837804
In 2005, the theory of line structure light confocal microscopy was put forward firstly in China by Xingyu Gao and
Zexin Xiao in the Institute of Opt-mechatronics of Guilin University of Electronic Technology. Though the lateral
resolution of line confocal microscopy can only reach or approach the level of the traditional dot confocal microscopy.
But compared with traditional dot confocal microscopy, it has two advantages: first, by substituting line scanning for dot
scanning, plane imaging only performs one-dimensional scanning, with imaging velocity greatly improved and scanning
mechanism simplified, second, transfer quantity of light is greatly improved by substituting detection hairline for
detection pinhole, and low illumination CCD is used directly to collect images instead of photoelectric intensifier. In
order to apply the line confocal microscopy to practical system, based on the further research on the theory of the line
confocal microscopy, imaging technology of line structure light is put forward on condition of implementation of
confocal microscopy. Its validity and reliability are also verified by experiments.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75061Q (2009) https://doi.org/10.1117/12.837896
A review of high-speed flow pressure and aerodynamic heating effect on Supersonic missile's dome is given. The dome
should have excellent properties in optical, mechanical and chemical characteristics. A design of dome on supersonic
mode is described according to tactical guide line of a missile. The dome made of quartz which is about 8mm thick and
141mm in window diameter. To check up the reliability of the dome, a reasonable finite element model (FEM) of dome
is established, and a thermal-mechanical Analysis to the dome by finite element software NASTRAN has carried on,
through these can obtained the distribution of temperature field and stress field when the speed is 2.3Ma. The results
indicated that the stress was concentrated in the joint of the dome end and the Missile Section, and the maximum stress
was 16.4Mpa. The stress of other nodes was smaller than the allowable stress of quartz glass. Reference to the results of
the analysis, a lightweight revision to the dome structural dimension and a new method of dome fixing have put forward,
which can reduce the stress concentration.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75061R (2009) https://doi.org/10.1117/12.838068
Embedded Ultrasonic Endoscope, based on embedded microprocessor and embedded real-time operating system, sends a
micro ultrasonic probe into coelom through the biopsy channel of the Electronic Endoscope to get the fault histology
features of digestive organs by rotary scanning, and acquires the pictures of the alimentary canal mucosal surface. At the
same time, ultrasonic signals are processed by signal reception and processing system, forming images of the full
histology of the digestive organs. Signal Reception and Processing System is an important component of Embedded
Ultrasonic Endoscope. However, the traditional design, using multi-level amplifiers and special digital processing
circuits to implement signal reception and processing, is no longer satisfying the standards of high-performance,
miniaturization and low power requirements that embedded system requires, and as a result of the high noise that
multi-level amplifier brought, the extraction of small signal becomes hard. Therefore, this paper presents a method of
signal reception and processing based on double variable gain amplifier and FPGA, increasing the flexibility and
dynamic range of the Signal Reception and Processing System, improving system noise level, and reducing power
consumption. Finally, we set up the embedded experiment system, using a transducer with the center frequency of 8MHz
to scan membrane samples, and display the image of ultrasonic echo reflected by each layer of membrane, with a frame
rate of 5Hz, verifying the correctness of the system.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75061S (2009) https://doi.org/10.1117/12.838089
The baffle design and analysis of a panchromatic push-broom camera were investigated for a Cassegrain telescope in this
paper. A specially designed flower-look baffle is surrounded by the hole of the primary mirror and secondary mirror.
With this design, the flower-look baffle can block the direct-hit stray light and reduce the off-axis field of view (FOV)
vignetting. The modulation transfer function (MTF) of this design is increased 10 % as compared to the performance of
the traditional baffles. This camera is equipped with a large field of view (FOV) which can get a wide swath and can
provide high-resolution image for observation and monitoring of environmental pollution and disaster. The optical
system assembly (OSA) of the camera is a kind of Cassegrain telescope which contains two reflection mirrors and five
corrected lenses. Compared with other off-axis telescopes, this traditional optical configuration can be manufactured and
aligned much easily. In a large FOV Cassegrain design, the central hole of the primary mirror is larger than that in a
traditional Cassegrain design. The rays out from FOV pass though the central hole easily and reach the focal plan
assembly (FPA) directly. This kind of stray light carries strong energy flux which significantly reduces the image
performance. A baffle subsystem is needed in order to avoid the direct stray light exposure. The performance evaluation
of the baffle system and the MTF comparison results from two kinds of baffle shapes are included in this study. It
indicates that the flower-look shape is more efficient in keeping the relative illumination and MTF than traditional tube
shape. The maximum benefit of the flower-look baffle is found for increasing off-axis tangential MTF.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75061T (2009) https://doi.org/10.1117/12.839700
Laser triangulation ranging is a method of distance measure using laser as the light source and based on the triangulation
ranging principle. It has many advantageous characteristics such as non-contacted measurement, high accuracy, and a
large degree of strength against disruption. As a result, it is widely used in the industrial production. An integrated
real-time laser triangulation ranging system based on virtual instruments is introduced in this paper. The measuring
principle, the hardware components and the real-time virtual instrument program are introduced. As well as, the results
of the measurement are presented and analyzed.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75061U (2009) https://doi.org/10.1117/12.837585
During the process of generation and transmission, images will be influenced by the performance of imaging system,
quantization noise or some other actors. The image will appear some phenomenons like clarity decrease and low
contrast. For the sake of improving the picture quality in OLED system, time sequence control logic and hardware of
the whole OLED system were implemented based on the detailed analysis of OLED panel electrical characteristics and
various gray scale scanning principles. Sub-field scanning working mode is adopted in the design. Gray scale is 64 and
vertical sweep frequency is 60Hz~100Hz.FPGA is the core control device in the whole system, the DVI decoded signal
is processed. The design realizes the real-time video display on OLED. The utilization of parameters regulated
homomorphic filtering technology is studied to improve the quality of color image. At first, the high and low frequency
parts are departed with the help of illumination reflectance model.Then the digital image is processed with approximate
high-pass filter, the simplified filtering algorithm made a compromise solution between the complex of hardware
implementation and image quality. In the end, by the frequency domain inverse transformation, images got enhanced.
The experiment results show that the particular information extrudes and the whole visual effect is improved after the
process.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75061V (2009) https://doi.org/10.1117/12.837876
More and more applications need stereoscopic imaging to analyze the characteristic of things, so three-dimensional
information is needed to visualize and analyze. The stereoscopic imaging can be obtained by single camera or two
cameras. There are several approaches for creating stereo images with a single camera. One of the simplest and most
frequently used has been to place an optical adapter in front of the existing lens, and two images are formed by two
beams through one camera lens. Biprism can be used as stereo adapter. As light go through the biprism, an angle
change occurs due to the prism, the light refracted at the two surfaces, angle of the prism α with also reflection index n
determine the angle change δ of the light. And δ is the maximum field of view. Bigger angle of biprism can obtain
bigger range of stereoscopic imaging, however, the larger of the angle of biprism, the larger of lateral color aberration
the biprism caused, which can affect the resolution of the stereoscopic imaging. This paper also analyzes the nonlinear
magnification and color aberration of the biprism stereo adapter.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75061W (2009) https://doi.org/10.1117/12.837880
The Fly-eyes element has been widely applied to acquire uniform illumination in microscope, printing, projection, and so
on. With large number of fly-eyes pieces and specified aperture shape, illumination of high efficiency, high uniformity,
and specified area shape can be acquired. In this paper, mathematical expressions for fly-eyes illumination are derived
for free form incoming light distribution. With these expressions, the reason why uniform illumination can be acquired
with fly-eyes is given, and the defects of fly-eyes illumination is also discovered. According to traditional design
experience, the illumination uniformity acquired by fly-eyes illumination will be increased with the increment of fly-eyes
number. But with the derived expressions, it can be found that there are some limitations for this experience. For some
odd symmetrical illumination cases, uniform illumination can not be acquired even with large number of fly-eyes pieces.
This feature of fly-eyes illumination should be pay good attentions when dealing with non-symmetrical illumination
cases. Another feature of fly-eyes illumination is that discrete angular distribution instead of continuous angular
distribution of output light is acquired, and this discrete angular pattern varies with numerical aperture of the incoming
light. This may be a bad feature for microscope with fly-eyes illumination, but this is a good feature for projection. With
these derived mathematical expressions, guidelines for the application of fly-eyes illumination can be found and a deep
view into the fly-eyes illumination can be acquired.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75061X (2009) https://doi.org/10.1117/12.838185
Solar light pipes are effective method to induce sunlight into the room need to be illuminated to improve vision quality.
This paper presents the results of monitoring a small solar light pipe located inside a windowless test box of about
0.22m3.The light pipe is 720mm long with the diameter 180mm.The average reflectivity of the internal surface is
0.82.The system has been monitored with luminometers to evaluate the distribution of the luminance on a working-plane
under sunny conditions, cloudy conditions and overcast conditions. All the luminometers are automatic digital
equipments, according with CIE photopic standard. The solar light pipe used in the experiment achieved minimum
illuminance of 140lx overcast sky and achieved maximum of 1657lx under sunny condition. At the corner, the
illuminance value decrease rapidly.The experimental results showed that uniformity ratio of illuminance of the light pipe
variable with the sky conditions. Uniformity ratio of illuminance was 0.48 under overcast conditions, 0.44 at cloudy
conditions, and 0.83 at sunny conditions in the middle in the test box. Compare the experimental results of sunny
conditions with the values of overcast conditions, the difference is the intensity of the illuminance under sunny
conditions was stronger and evenly than under the cloudy conditions.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75061Y (2009) https://doi.org/10.1117/12.837877
With the development of high power LED (light emitting diode) technology and color filter LCOS (liquid crystal on
silicon) technology, the research on LED based micro optical engine for mobile projection has been a hot topic recently.
In this paper one compact LED powered LCOS optical engine design is presented, which is intended to be embedded in
cell phone, digital camera, and so on. Compared to DLP (digital light processor) and traditional color sequential LCOS
technology, the color filter based LCOS panel is chosen for the compact optical engine, this is because only white LED
is needed. To further decrease the size of the optical engine, only one specifically designed plastic free form lens is
applied in the illumination part of the optical engine. This free form lens is designed so that it plays the roles of both
condenser and integrator, by which the output light of LED is condensed and redistributed, and light illumination of high
efficiency, high uniformity and small incident angle on LCOS is acquired. Besides PBS (polarization beam splitter),
LCOS, and projection lens, the compact optical engine contains only this piece of free form plastic lens, which can be
produced by plastic injection molding. Finally a white LED powered LCOS optical engine with a compact size of less
than 6.6 cc can be acquired. With the ray tracing simulation result, the light efficiency analysis shows that the output flux
is over 8.5 ANSI lumens and the ANSI uniformity of over 80%.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75061Z (2009) https://doi.org/10.1117/12.837943
The optical design of Optical transfer function (OTF) instrument, which is based on the image Fourier analysis method,
is presented. To perform infinite conjugate testing of an optical system, the designed system is mainly composed of the
object generator, lens under test, and image analyzer. The object generator offers an object at infinite distance with
known spectral and spatial content. It includes the illumination system and the collimating system. The illumination
system is analyzed and optimized with CODEV and LightTools software. Performance evaluation indicates that its
illumination uniformity in the required area is above 95% .The collimation system based on an off-axis parabolic mirror
is of the focal length of 2000mm and the entrance pupil diameter 200mm. Through optimization, the image quality of the
collimator is excellent and its on-axis modulation transfer function (MTF) approaches diffraction limit. Collimated beam
of the target is imaged by the lens under test. The image is magnified and acquired by image analyzer, which is made
up of four parts: an infinite conjugate microscope objective, a tube lens, an eyepiece and a CCD camera. Image Results
show that this designed scheme meets the requirements of this OTF instrument.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 750620 (2009) https://doi.org/10.1117/12.836599
Prisms are involved in many instruments of measurements of refractive indices. The optical feedback effect in a
semiconductor laser introduced by the reflection of a prism was applied to the determination of zero incident angle.
Without any additional optical components or calibration setups the angular resolution reached 0.00074°. This approach
was used in refractometers and prism coupling system. Prisms, water, wintergreen oil and a quartz plate were measured
by total internal reflection technique and the optical feedback effect. In the measurement of prism, we proposed that the
base angle of a detected prism should be appropriately prepared so as that the refractive index of an isosceles prism
made of any material can be precisely measured. The results for a SrTiO3 prism with a base angle 30.0169 degree was
2.3780 at 659 nm. The measurements of water and wintergreen oil were performed by a reference prism made of SrTiO3.
We found that the result for a quartz plate wouldn't be influenced by the index matching liquid between the plate and a
reference prism, which was intentionally introduced, only if the index of the liquid was larger than that of the quartz. The
refractive index of a polymer film was measured accurately and the maximum of deviation from mean was ±0.0001.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 750621 (2009) https://doi.org/10.1117/12.837677
The requirement for low distortion in either spatial or spectral direction of a push-broom imaging
spectrometer has been recently recognized. Though distortion scale of as much as 1 or 2 pixels have
been accepted in previous spectrometer designs, it is suggested to be limited to the order of hundredth
of a pixel to preserve the validity and integrity of the spectral imaging data.
The developed push-broom imaging spectrometer adopts a reflective Offner relay structure and
provides good optical correction and compact size. The spectral and spatial distortion measurement is
of significance for instrument performance evaluation and alignment guidance. In this paper, two
easy-to-implement and effective measurement methods for both spatial and spectral distortion are
presented.
By using a standard Hg-Cd lamp as both the illuminating source and the object, the spectroscopic
image of the slit focusing onto the CCD focal plane is collected. In certain rows of the image, the
center positions of every spectral line are recorded. Through the comparison of recorded positions of
different rows, the spectral line bending of the calibrated imaging spectrometer is worked out.
In the continuous spectrum illumination condition and by using a self-made mask as the object,
the entrance slit image is cut into tens of tiny rows that correspond to different image heights. The
center positions of 5 typical rows are calculated and five chromatic distortion curves are worked out
with certain interpolation method.
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Qing Song, Chunsong Zhang, Jiayong Huang, Di Wu, Jing Liu
Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 750622 (2009) https://doi.org/10.1117/12.837885
The error source of the external diameter measurement system based on the double optical path parallel light projection
method are the non-parallelism of the double optical path, aberration distortion of the projection lens, the edge of the
projection profile of the cylinder which is affected by aperture size of the illuminating beam, light intensity variation and
the counting error in the circuit. The screw pair drive is applied to achieve the up-and-down movement in the system.
The precision of up-and-down movement mainly lies on the Abbe Error which is caused by the offset between the
centerline and the mobile line of the capacitive-gate ruler, the heeling error of the guide mechanism, and the error which
is caused by the dilatometric change of parts resulted from the temperature change. Rotary mechanism is achieved by
stepper motor and gear drive. The precision of the rotary mechanism is determined by the stepping angle error of the
stepper motor, the gear transmission error, and the heeling error of the piston relative to the rotation axis. The method of
error modification is putting a component in the optical path to get the error curve, which is then used in the
point-by-point modification by software compensation.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 750623 (2009) https://doi.org/10.1117/12.838104
The method is presented to measure the homogeneity of the refractive index of infrared optical material, germanium (Ge)
plate, using infrared interferometer working at 10.6μm. In order to measure the refractive index homogeneity of large
diameter infrared material, the infrared standard lens is used in the test arm of infrared interferometer. The Ge plate is
placed in the infrared spherical wave brought by infrared standard lens. The difference is measured between the
wavefront with Ge plate and the one without Ge plate by the infrared interferometer working at 10.6μm. The addition
aberration caused by Ge plate needs to be eliminated with Zernike polynomials fit from the results. As the Ge plate is too
soft to process, its surface form may not meet the requirement for the measurement. In order to improve the measuring
accuracy of the refractive index homogeneity, the surface deformations of two boundaries of the Ge plate are measured
by phase-shifting digital interferometer working at 0.6328μm. The surface deformations are removed from the result of
the refractive index homogeneity measurement. In this way, the measuring accuracy of the refractive index homogeneity
is up to 10-5. A piece of Ge plate is tested. The peak-valley (PV) value of its refractive index deviation is 3.65×10-5, and
the root mean square (RMS) value is 4.11×10-6.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 750624 (2009) https://doi.org/10.1117/12.838227
A novel model of an optical system for surface roughness measurement is proposed, which is based on the study of the
scattering characteristic of rough surfaces and theories for intensity-modulated fiber optic sensors. The effect of the
rough surfaces and the fiber optic sensor head to the measurement model are analyzed respectively. In order to guide the
surface roughness measurement experiment, some simulation of the optical system has been done on a computer.
Though the modeling and simulation of the surface roughness measurement system are under certain assumptions and
conditions, the research results are valuable to experiment applications yet.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 750625 (2009) https://doi.org/10.1117/12.838280
In this paper, it is described the work principle and total structure and design of the laser-scanned measuring systerm for
the large diameter. Signal characteristics of scanning system is described,the circuit and method for boundaries detection
and drift errors. The feasibility of the system is tested by practice, the accuracy of boundary distinguishing is up to
±1μm,and continuous working errors up to ±5μm,measurement range up to 0~400mm. This system shows a better method for measuring large diameters.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 750626 (2009) https://doi.org/10.1117/12.838074
Optical sparse-aperture system can be designed to obtain high resolution in astronomical object
imaging with several independent small-aperture telescopes. However, the images from separated
telescopes are not only overlapped but also have same phase. Ordinarily, the phase of each sub-aperture
can be obtained by wave-front sensing technology, such as phase retrieval algorithms, but this method
requires more than one CCD and interfere the wave front. In this work, we use the differences between
PSFs from each sub-array to get the type and size of the co-phase error. Finally, submit the results to
mechanical system as a feedback for phase retrieval. We used Golay-3 system as an example to verify
the above conclusions. The output is consistent with the pre-set value within the allowable error. The
results show that this method is feasible and reasonable.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 750627 (2009) https://doi.org/10.1117/12.838026
Hexagonal array structure is not only a nature-preferred basic structure widely exists in nature, but also is an important
pattern that has been widely used in optoelectronics field. Talbot effect and fractional Talbot effect is one of the most
basic optical phenomena that has received extensive investigations both because it is a fundamental Fresnel diffraction
effect and also because of its wide applications. As one of the most application of the Talbot effect, Talbot array
illuminators have been extensively studied since Lohmann and Thomas put forward for the first time. One-dimensional
and two-dimensional orthogonal Talbot array illuminators are in-depth investigated and can be designed and
manufactured based on the theory of the fractional Talbot effect. A hexagonal array is a periodic nonorthogonal array
that cannot be represented by orthogonal array. Thus, it is difficult to analyze the diffraction field of hexagonal arrays at
fractional Talbot planes. Previous studies have shown that light distribution at Talbot distance can be considered multiple
copies of the original aperture by shifting and superimposing. In this paper, qualitative analysis of a hexagonal array is
carried out at fractional Talbot planes based on the fractional Talbot theory. Theory and experiment analysis show that
diffraction patterns at 1/6 and 1/3 Talbot distance are consist of nine equally spaced copies of the original aperture, and
each copy is shifted by 2a and a (a represent the side length of the hexagon) from another copy, respectively.
Experimental results are in good agreement with the theoretical analysis.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 750628 (2009) https://doi.org/10.1117/12.838387
Detecting 3-D information on welding pool surface shape is difficult due to the arc light interference, high temperature
radiation and pool surface specular reflection. The characteristics of mirror like reflection on pool of liquid surface are
studied. Besides the way to obtain clear information-rich image of the pool area is discussed under the strong arc light.
Because of the strong arc light above the pool will affect the imaging of the relatively weaker laser stripes seriously, we
need to choose a suitable shooting angle and shooting distance to achieve well image. According to all these factors, the
optimal combination of the sensing structure parameters in theory is deduced. Based on this work, a vision detecting of
arc welding pool surface topography system was putted up in our laboratory, also actual measurement was carried out to
obtain more clear images of deformation laser stripes in welding pool. This will provide the three-dimensional
reconstruction a strong support.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 750629 (2009) https://doi.org/10.1117/12.838399
Selecting an appropriate pitch is one of the most important aspects to ensure the system measurement range and
precision in grating projection principle of 3D profile measurement while the Fourier transform frequency spectrum is
separated completely. According to the concept of the equivalent wavelength, the basic requirement for measurement
system and the selection of projection grating pitch are discussed in this paper to avoid shadows and frequency spectrum
alias in a crossed-optical-axes system in Fourier Transform Profilometry (FTP). The influence of CCD sampling to the
FTP is also discussed to obtain CCD sampling condition. When the CCD sampling frequency is unchanged, it is
necessary to reduce the grating frequency which means to increase the grating pitch to satisfy the sampling condition.
Finally, the range of the grating pitch is determined, and the optimal grating pitch is obtained after the experiments.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75062A (2009) https://doi.org/10.1117/12.839636
Nowadays, the most widespread used space filters are pinhole filters, consisted of a lens with a pinhole in the focal
plane, requiring for matching spatially a focused laser beam to a small hole. Experimentally, the initial alignment of
spatial filters is difficult, if the pinhole position changes, a laser can damage the pinhole when the power is increased or
even permanent damage due to heating. In contrast, non-spatial filtering, a holographic filter element, which made of
volume Bragg grating, is inserted in the laser beam path to selectively diffract light propagating at a particular angle,
without a lens or a pinhole. A volume Bragg grating is operated directly on the laser beam propagation angle without
focus, made use of the grating's angular selectivity, which alignment is easier than pinhole filter, and endures a
high-power laser. In this thesis, a volume Bragg grating was fabricated in a 40μm-thick photopolymer, with period of
911.3nm, preparing for a low-pass non-spatial filtering. It achieves an angular selectivity of 35mrad; diffraction
efficiency about 95%. Nevertheless, the results of the experiment can be verified with the theory, but not suitable for
high-power application. In that case, the photopolymer's grating should be replaced with a photo-thermo-refractive glass.
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Tao Wang, He Yu, Zhiming Wu, Yadong Jiang, Jing Jiang
Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75062B (2009) https://doi.org/10.1117/12.837841
In this article, the thickness uniformity of thin films deposited by magnetron sputtering system involved in both planetary
circumrotate model and traditional model by rectangle target were investigated respectively. It was shown that the
thickness uniformity of films by magnetron sputtering system with rotation and revolution at the optimum ratio value of
Wz/Wg 0.5 is superiority to traditional system which with 0.3 of thickness relative deviation at coordinative condition.
Moreover, the relative deviation was dropped as the addition of distance from substrate to target. The results were in
accord with that obtained experimentally.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75062C (2009) https://doi.org/10.1117/12.837883
An approach for designing of interference filter is presented by using genetic algorithm (here after refer to as GA) here.
We use GA to design band stop filter and narrow-band filter. Interference filter designed here can calculate the optimal
reflectivity or transmission rate. Evaluation function used in our genetic algorithm is different from the others before.
Using characteristic matrix to calculate the photonic band gap of
one-dimensional photonic crystal is similar to electronic
structure of doped. If the evaluation is sensitive to the deviation of photonic crystal structure, the approach by genetic
algorithm is effective. A summary and explains towards some uncompleted issues are given at the end of this paper.
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Haihong Cai, Wei Li, Yadong Jiang, Yuguang Gong, Zhi Li
Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75062D (2009) https://doi.org/10.1117/12.838183
Hydrogenated amorphous silicon (a-Si:H) thin films doped with Phosphorus (P) and Carbon (C) were deposited by
plasma enhanced chemical vapor deposition (PECVD). The influence of carbon on the optical property and the content
of hydrogen and carbon in the P-doped a-Si:H films were investigated by means of X-ray photoelectron spectroscopy,
spectroscopic ellipsometry and Fourier-transform infrared spectroscopy, respectively. The results show that the C-Si
bonds in the P-C doped a-Si:H thin films can be observed clearly, and the content of hydrogen and carbon as well as the
optical band gap increases with increasing CH4 gas flow rate, but the refractive index decreases with increasing CH4 gas
flow rate in the CVD chamber.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75062E (2009) https://doi.org/10.1117/12.837230
In order to detect the defects in a random surface, the local fractal dimension(LFD) of the random
surface image and its anisotropy are studied in this paper. An algorithm to estimate the anisotropy of
local fractal dimensions based on moments of the increments is obtained, and the ratio of horizontal
and vertical differential of LFD which can characterize the anisotropy of local fractal dimension is
proposed. The parameter overcomes the local textual irregularities by representing the region
stationary of a non-stationary rough surface. Images of variant random surfaces and defects are
investigated. The results of experiments show that the method and parameter proposed are robust,
which extract local morphologic features of roughness anisotropy in random surfaces distinctly. By
measuring the rupture joint of the ratio, the defects in random surfaces can be detected and located
sensitively.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75062F (2009) https://doi.org/10.1117/12.837703
Two common structures were often adopted to construct the photoelectric system that fixed on soft-rope hanged
platform. Both of the horizontal photoelectric system and X-Y
Double-Axis Gimbal photoelectric system have blind
regions, so they have different application. This article regarded the photoelectric system fixed on soft-rope hanged
platform as multi-rigid-body system. Lagrange equation and augmented body theory were employed to establish the
balloon borne photoelectric system's dynamic model as torques that imposed on the photoelectric system were
considered. Channel matrix and matrix of constraint force element and some other matrixes were used to describe the
photoelectric system's dynamics. Numerical simulations have been performed to compare the two kinds of balloonborne
photoelectric system's performance. According to simulation result, different application situation were given for
the two structure photoelectric systems fixed on rope hanged platform. The x-y double-axis photoelectric system is
adequate for tracking high-elevation object, and has better stabilization ability against pendulum disturbance. The
horizontal photoelectric system was good at tracking low-elevation object and has better ability to eliminate twist torque.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75062G (2009) https://doi.org/10.1117/12.837781
The regularization parameter plays a crucial role in the quality of a restored super-resolution image. In this paper, we
propose a method for parametric regularization based on the incomplete orthogonalization method. The method truncates
the Arnoldi recurrence. Specifically, an integer k is selected so that it is necessary to keep only the k previous orthogonal
vectors for Arnoldi process. The others are not needed in the process and may be discarded. The method can be
inexpensively computed by the incomplete orthogonal process. Thus a convenient way for choosing the regularization
parameter is presented.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75062H (2009) https://doi.org/10.1117/12.837783
In order to autotrack the object and detect the solar UV index, a reliable real-time high-precise instrument is proposed in
this paper. This instrument involves two subsystems: the autotrack and detecting modules. The autotrack module consists
of four-quadrant photo detector, multi-channel signal processing circuit and precise stepping system. The detecting
module designed for dada measurement and acquisition is made up of the ultraviolet sensor UV460 and high precision
A/D converter MAX1162. The key component of the entire instrument is ultralow-power microprocessor MSP430 which
is used for entire system controlling and data processing. The lower system of autotracking and measurement is
communicated with upper PC computer by RS232 module. In the experiment, the tracking precision of two-dimensional
motion revolving stage is calibrated to be less than 0.05°. Experimental results indicate that the system designed could
realize the precise autotracking and detecting function well, and the measure precision of system has reached the
desirable target.
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Tianhua Xu, Gunnar Jacobsen, Sergei Popov, Jie Li, Ke Wang, Ari T. Friberg
Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75062I (2009) https://doi.org/10.1117/12.837834
High bit rates optical communication systems pose the challenge of their tolerance to linear and nonlinear fiber
impairments. Digital filters in coherent optical receivers can be used to mitigate the chromatic dispersion entirely in the
optical transmission system. In this paper, the least mean square adaptive filter has been developed for chromatic
equalization in a 112-Gbit/s polarization division multiplexed quadrature phase shift keying coherent optical
transmission system established on the VPIphotonics simulation platform. It is found that the chromatic dispersion
equalization shows a better performance when a smaller step size is used. However, the smaller step size in least mean
square filter will lead to a slower iterative operation to achieve the guaranteed convergence. In order to solve this
contradiction, an adaptive filter employing variable-step-size least mean square algorithm is proposed to compensate the
chromatic dispersion in the 112-Gbit/s coherent communication system. The variable-step-size least mean square filter
could make a compromise and optimization between the chromatic dispersion equalization performance and the
algorithm converging speed. Meanwhile, the required tap number and the converged tap weights distribution of the
variable-step-size least mean square filter for a certain fiber chromatic dispersion are analyzed and discussed in the
investigation of the filter feature.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75062J (2009) https://doi.org/10.1117/12.837889
As the development of image processing and area array detectors, CCD has been used widely in optical transfer function
(OTF) measurement for it can realize fast measurement and avoid scanning operation. An OTF testing instrument using
CCD camera is introduced in this paper. This instrument works in visible wavelength with 200mm entrance pupil
diameter. The highest spatial frequency this instrument can measure is up to 200lp/mm. This instrument is composed of
four parts, that is, object generator, image analyzer, control system and software. A 50mm plano-convex lens is used to
calibrate this OTF testing instrument. According to the calibration results, measurement error of this testing instrument is
less than 0.04, while its repeatability is less than 0.03.
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Matvei A. Pashkovskiy, Irina L. Livshits, Sergey C. Stafeev, Denis Culagin, Yuri L. Kolesnikov
Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75062K (2009) https://doi.org/10.1117/12.837898
This article describes algorithm for patent analysis. The main goal of the algorithm is to discover structural scheme of optical system: sequence of elements and its purposes. Examples are given. This software could be used both for research and educational purposes.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75062L (2009) https://doi.org/10.1117/12.837916
The design and manufacure of Continuous Phase Plate(CPP) with a large aperture is very significant and useful to the
Inertial Confinement Fusion(ICF) and some physical experiment related due to its several advantages such as high
energy availability ratio and easily controllable focal spot's profile. Various processing errors will be inevitably
introduced for the limitation of the fabrication technique and hence produce aberrated laser wavefront, which is very
influential for the process of beam's propagation and focusing. In this paper we numerically simulate and compare the
optical filed distributions of phase-aberrated super-Gaussian beam passing through both designed and manufactured CPP
with a large aperture and deep phase. The simulation results prove the CPP's beam smoothing performance and high
tolerance of the super-Gaussian beam's far-field focal plane intensity distributions,which has been added by the random
phase screen, furthermore, the modulation influence of intermediate frequency phase error to the near-field light intensity
distribution has also been simulated and proved, from which we can improve the fabrication technique and optimize the
design method.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75062M (2009) https://doi.org/10.1117/12.838159
The designed hyperspectral imaging system is composed of three main parts, that is, optical subsystem, electronic
subsystem and capturing subsystem. And a three-dimensional "image cube" can be obtained through push-broom. The
fore-optics is commercial-off-the-shelf with high speed and three continuous zoom ratios. Since the dispersive imaging
part is based on Offner relay configuration with an aberration-corrected convex grating, high power of light collection
and variable view field are obtained. The holographic recording parameters of the convex grating are optimized, and the
aberration of the Offner configuration dispersive system is balanced. The electronic system adopts module design, which
can minimize size, mass, and power consumption. Frame transfer area-array CCD is chosen as the image sensor and the
spectral line can be binned to achieve better SNR and sensitivity without any deterioration in spatial resolution. The
capturing system based on the computer can set the capturing parameters, calibrate the spectrometer, process and display
spectral imaging data. Laboratory calibrations are prerequisite for using precise spectral data. The spatial and spectral
calibration minimize smile and keystone distortion caused by optical system, assembly and so on and fix positions of
spatial and spectral line on the frame area-array CCD. Gases excitation lamp is used in smile calibration and the keystone
calculation is carried out by different viewing field point source created by a series of narrow slit. The laboratory and
field imaging results show that this pushbroom hyperspectral imaging system can acquire high quality spectral images.
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Hongbing Wang, Zhenming Peng, Jie Liu, Youwang Zheng, Baobing Liao, Yue Wang
Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75062N (2009) https://doi.org/10.1117/12.838618
For feature point detection with variable scale, rotation, variable illumination and variable 3D view port, a feature point
detection and tracking method combining scale invariant feature transform (SIFT) and KLT (Kanade-Lucas-Tomasi) is
proposed in this paper. SIFT feature point detection method is improved and it is used to detect feature points of image,
and then KLT method is used to track the feature points continuously. In order to verify the feasibility of the proposed
method, simulation experiments are carried out in real scene image sequences with different complexity using this
method, better results of detection and tracking are obtained and the obtained feature point is more stable than
conventional method.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75062O (2009) https://doi.org/10.1117/12.839424
For the segmentation of the dim point target and the extended target under sky background which has low resolution, an
automatic thresholding method based on spatial gradient information is presented. It can separate the point target and the
extended target from the background even under the strong noise condition, providing good segmentation results for the
point target as well as the accurate information of the shape for the extended target. This method first marks the pixels as
the background or the target using the image gray gradient roughly, then fit the grayvalue of pixels in the background
area to obtain two thresholds, with which the image can be segmented according to the pixel position, and finally the
morphological filter is adopted to remove the noise in the segmented image. The experiment shows that, when compared
to Otsu in low resolution images with even background, our method can work more accurately and robustly.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75062P (2009) https://doi.org/10.1117/12.839647
Scanning Probe Microscopes(SPM) use piezoelectric actuators to generate the scans. But the nonlinearities inherent in
the piezoelectric actuators limit the usefulness of the instruments in precision metrology. This paper describes a simple
optical beam displacement sensor that is used to accurately measure the (x,y) position of a piezoelectric tube scanner
used in Scanning Near-field Optical Microscope(SNOM). As the nonlinearities is too complex to make up a simple math
model, this paper use the Artificial neural network to Calibrate the nonlinearities.
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Proceedings Volume 2009 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, 75062Q (2009) https://doi.org/10.1117/12.837719
Three-Dimensional(3D) Active imaging are usually employed for target detection and recognition[1~3].
In recent years, many methods have been presented for high-speed 3D active imaging[4~5]. However,
for those methods employ one group of images only maintains one more gated partition, the depth
resolution increases linearly with the number of images. This character limits the performance of 3D
active imaging systems. In this paper, we demostrate how to overcome this limitation. In our method,
we introduce an exponential code method to ploting out partitions which makes the depth resolution
increased exponential with the number of images. Furthemore, oure poltiong is robust and realible for it
is based on binary principle.
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