Sten Tornegård scite author profile

Ultrafast laser physics continues to advance at a rapid pace, driven primarily by the development of more powerful and sophisticated diode-pumping sources, the development of new laser materials, and new laser and amplification approaches such as optical parametric chirped-pulse amplification. The rapid development of high average power cryogenic laser sources seems likely to play a crucial role in realizing the long-sought goal of powerful ultrafast sources that offer concomitant high peak and average powers. In this paper, we review the optical, thermal, thermo-optic and laser parameters important to cryogenic laser technology, recently achieved laser and laser materials progress, the progression of cryogenic laser technology, discuss the importance of cryogenic laser technology in ultrafast laser science, and what advances are likely to be achieved in the near-future.

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Cryogenic nanosecond and picosecond high average and peak power (HAPP) pump lasers for ultrafast applications

Brown¹,

Tornegård²,

Kolis

2016

High Pow Laser Sci Eng

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Using cryogenic laser technology, it is now possible to design and demonstrate lasers that have concomitant high average and peak powers, with near-diffraction-limited beam quality. We refer to these new laser systems as HAPP lasers. In this paper, we review important laser crystal materials properties at cryogenic temperature, with an emphasis on Yb lasers, and discuss the important design considerations, including the laser-induced damage threshold, nonlinear effects and thermal effects. A comprehensive model is presented to describe diode pulsed pumping with arbitrary duration and repetition rate, and is used with the Frantz-Nodvik equation to describe, to first order, the performance of HAPP laser systems. A computer code with representative results is also described.

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High average power-high peak power cryogenic Yb:YAG lasers for pumping Ti:Sapphire and OPCPA ultrafast lasers

Brown

Tornegård

Kowalewski

et al. 2012

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Miniature single-longitudinal-mode diode-pumped solid-state lasers

Brown¹,

Hancock²,

Tomasello³

et al. 2022

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Sten Tornegård

The Application of Cryogenic Laser Physics to the Development of High Average Power Ultra-Short Pulse Lasers

Cryogenic nanosecond and picosecond high average and peak power (HAPP) pump lasers for ultrafast applications

High average power-high peak power cryogenic Yb:YAG lasers for pumping Ti:Sapphire and OPCPA ultrafast lasers

Miniature single-longitudinal-mode diode-pumped solid-state lasers

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