Start Over

Petawatt Femtosecond Laser Pulses from Titanium-Doped Sapphire Crystal

Authors :: Ulrich Schramm
Tim Ziegler
Mamiko Nishiuchi
Masaki Kando
Kiminori Kondo
Alexander S. Pirozhkov
Koichi Ogura
Kotaro Kondo
Akito Sagisaka
Karl Zeil
Yasuhiro Miyasaka
Kai Huang
Thomas Püschel
Nobuhiko Nakanii
Stefan Bock
Timur Zh. Esirkepov
Yuji Fukuda
James K. Koga
Hironao Sakaki
Akira Kon
Nicholas P. Dover
Hiromitsu Kiriyama
Source :: Crystals, Volume 10, Issue 9, Crystals 10(2020), 783, Crystals, Vol 10, Iss 783, p 783 (2020)
Publication Year :: 2020
Publisher :: Multidisciplinary Digital Publishing Institute, 2020.
Abstract: Ultra-high intensity femtosecond lasers have now become excellent scientific tools for the study of extreme material states in small-scale laboratory settings. The invention of chirped-pulse amplification (CPA) combined with titanium-doped sapphire (Ti:sapphire) crystals have enabled realization of such lasers. The pursuit of ultra-high intensity science and applications is driving worldwide development of new capabilities. A petawatt (PW = 1015 W), femtosecond (fs = 10&minus<br />15 s), repetitive (0.1 Hz), high beam quality J-KAREN-P (Japan Kansai Advanced Relativistic ENgineering Petawatt) Ti:sapphire CPA laser has been recently constructed and used for accelerating charged particles (ions and electrons) and generating coherent and incoherent ultra-short-pulse, high-energy photon (X-ray) radiation. Ultra-high intensities of 1022 W/cm2 with high temporal contrast of 10&minus<br />12 and a minimal number of pre-pulses on target has been demonstrated with the J-KAREN-P laser. Here, worldwide ultra-high intensity laser development is summarized, the output performance and spatiotemporal quality improvement of the J-KAREN-P laser are described, and some experimental results are briefly introduced.