1. Optical systems. This applet shows the behavior of optical systems, such as lenses, projectors, telescopes, etc. It includes the calculation of their characteristics (cardinal points) and image formation, either by using paraxial optics approximation or by exact calculation. In the latter case you can see and analyze the systems' optical aberrations.

2. Light polarization and Fresnel laws. This applet lets you study light polarization and its reflection and refraction in isotropic media. It shows how to obtain the different polarization states of light from the superposition of two plane waves and it studies Fresnel coefficients for an incident wave on a surface separating two media, the first being a dielectric and the second either a dielectric or a conductor.

3. Young's experiment. This simulation shows Young interferences resulting from the interaction of a number of waves. When using a single extended source or two point sources, spatial coherence can be studied as well.

4. Multiple beam interference. This applet shows multiple beam interferences from a parallel dielectric thin film. The applet lets you study the evolution of reflection and refraction factors when the index of refraction and the absorption of the film and the substrate are modified. These can be constant or have a wavelength dependency.

5. Fabry-Perot interferometer. This program allows you to study the factors involved in an experiment with a Fabry-Perot interferometer. It lets you visualize the result of the multiple-wave interferences produced in the interferometer cavity when an extended source emitting two extremely close wavelengths is used. In this way, the resolving power of the instrument can be observed under different conditions. The influence of the reflection coefficient of the interferometer inner-faces on the visibility and the resolving power can be investigated as well.

6. Michelson interferometer. This applet lets you study the Michelson interferometer and see the evolution of light rings as the parameters of the system are changed. The case of a point source, which corresponds to the Twyman interferometer, is also analyzed.

7. Fresnel and Fraunhofer diffraction. This program shows the Fresnel and Fraunhofer diffraction patterns. The applet includes some default objects such as the slit, the rectangle and the circle, whose geometrical characteristics can be modified.

8. Fourier Optics. This simulation incorporates some image processing techniques in the Fourier optics domain. You can compute and see the Fourier transform of an object and the convolution between two images. You can also simulate the VanderLugt correlator (matched filter, phase-only filter and inverse filter) and the joint transform correlator (linear or binary joint power spectrum).

9. Colorimetry. This applet lets you study colors and their characteristic parameters, such as dominant wavelength, purity and coordinates in the XYZ or CIE system representations. You can obtain different colors by additive or subtractive mixing and you can also study the changes of a filter color depending on the illuminant.