Spatially resolved measurement of the core temperature in a high-power thulium fiber system

Till Walbaum; Matthias Heinzig; Franz Beier; Andreas Liem; Thomas Schreiber; Ramona Eberhardt; Andreas Tünnermann

doi:10.1117/12.2212734

9 March 2016 Spatially resolved measurement of the core temperature in a high-power thulium fiber system

Till Walbaum, Matthias Heinzig, Franz Beier, Andreas Liem, Thomas Schreiber, Ramona Eberhardt, Andreas Tünnermann

Proceedings Volume 9728, Fiber Lasers XIII: Technology, Systems, and Applications; 97280P (2016) https://doi.org/10.1117/12.2212734
Event: SPIE LASE, 2016, San Francisco, California, United States

Abstract

We present measurements of the temperature increase inside the active fiber of a thulium fiber amplifier during high power operation. At a pump power of over 100 W at a wavelength of 793 nm, we measure the core temperature distribution along the first section of a large mode area (LMA) highly thulium doped active fiber by use of an optical backscatter reflectometer. A mode field adaptor is used to maintain single mode operation in the LMA fiber. An increase in temperature of over 100 K can be observed in spite of conductive cooling, located at the pumped fiber end and jeopardizing the fiber coating. The recoated splice can be clearly identified as the hottest fiber region. This allows us to estimate the maximum thermally acceptable pump power for this amplifier. We also observe that the temperature can be decreased by increasing the seed power, which is in agreement with theoretical predictions on the increase of cross relaxation efficiency by depletion of the upper laser level. This underlines the role of power scaling of the respective seed power of a thulium amplifier stage as a means of thermal management.

Citation Download Citation

Till Walbaum, Matthias Heinzig, Franz Beier, Andreas Liem, Thomas Schreiber, Ramona Eberhardt, and Andreas Tünnermann "Spatially resolved measurement of the core temperature in a high-power thulium fiber system", Proc. SPIE 9728, Fiber Lasers XIII: Technology, Systems, and Applications, 97280P (9 March 2016); https://doi.org/10.1117/12.2212734

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