The effects of a temperature gradient in a laser crystal in an end-pumped configuration in a solid-state laser resonator results in thermally induced aberrations. Of particular interest we measure the thermally induced lens from the coefficient of defocus aberration with a Shack- Hartmann wavefront sensor. As a calibration technique, we infer the focal length of standard lenses probed by a collimated Gaussian beam at 633 nm and this technique is applied to an Nd:YAG medium under active pumping. This result is compared to a typical thermal lens determination where the length of an unstable cavity is varied.
Reference:
Bell, T., Naidoo, D. and Forbes, A. 2014. Thermally induced lensing determination from the coefficient of defocus aberration. 59th Conference of the South African Institute of Physics, University of Johannesburg, 7 to 11 July 2014
Bell, T., Naidoo, D., & Forbes, A. (2014). Thermally induced lensing determination from the coefficient of defocus aberration. http://hdl.handle.net/10204/9125
Bell, Teboho, Darryl Naidoo, and Andrew Forbes. "Thermally induced lensing determination from the coefficient of defocus aberration." (2014): http://hdl.handle.net/10204/9125
Bell T, Naidoo D, Forbes A, Thermally induced lensing determination from the coefficient of defocus aberration; 2014. http://hdl.handle.net/10204/9125 .
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