مرکز منطقه ای اطلاع رساني علوم و فناوري - Ce3+:LiCaAlF6 crystal for high-gain or high-peak-power amplification of ultraviolet femtosecond pulses and new potential ultraviolet gain medium: Ce3+:LiSr0.8Ca 0.2AlF6

DocumentCode :

1556308

Title :

Ce³⁺:LiCaAlF₆ crystal for high-gain or high-peak-power amplification of ultraviolet femtosecond pulses and new potential ultraviolet gain medium: Ce³⁺:LiSr_0.8Ca _0.2AlF₆

Author :

Liu, Zhenlin ; Kozeki, Toshimasa ; Suzuki, Yuji ; Sarukura, Nobuhiko ; Shimamura, Kiyoshi ; Fukuda, Tsuguo ; Hirano, Masahiro ; Hosono, Hideo

Author_Institution :

Hosono Transparent Electro-Active Mater. Project, Japan Sci. & Technol. Corp., Kawasaki, Japan

Volume :

Issue :

fYear :

2001

Firstpage :

542

Lastpage :

550

Abstract :

To develop high-peak-power ultrashort pulse laser systems in the ultraviolet region, a large Ce³⁺:LiCaAlF₆ (Ce:LiCAF) crystal, a tunable ultraviolet laser medium with large saturation fluence and broad gain spectrum width, was grown successfully with a diameter of more than 70 mm. To demonstrate high small signal gain, a four-pass confocal amplifier with 60 dB gain and 54 μJ output energy was constructed. Chirped pulse amplification (CPA) in the ultraviolet region was demonstrated using Ce:LiCAF for higher energy extraction. A modified bow-tie-style four-pass amplifier pumped by 100-mJ 266-nm 10-Hz pulses from a Q-switched Nd:YAG laser had 370-times gain and delivered 6-mJ 290-nm pulses. After dispersion compensation, the output pulses can be compressed down to 115 fs. This is the first ultraviolet, all-solid-state high-peak-power CPA laser system using ultraviolet gain media, and this demonstration shows further scalability of the Ce:LiCAF CPA system. Additionally, a new gain medium, Ce³⁺:LiSr_0.8Ca_0.2AlF₆, with longer fluorescence lifetime and sufficient gain spectrum width over 18 nm was grown to upgrade this system as a candidate for a final power amplifier gain module

Keywords :

calcium compounds; cerium; chirp modulation; fluorescence; laser tuning; lithium compounds; optical dispersion; optical pulse generation; optical pumping; solid lasers; strontium compounds; 10 Hz; 100 mJ; 115 fs; 266 nm; 290 nm; 54 muJ; 6 mJ; 60 dB; 70 mm; Ce:LiCAF crystal; Ce₃⁺:LiCaAlF₆ crystal; Ce₃⁺:LiSr_0.8Ca_0.2AlF ₆ gain medium; LiCaAlF₆:Ce; LiSr_0.8Ca_0.2AlF₆:Ce; Q-switched Nd: YAG pump laser; chirped pulse amplification; chirped-pulse amplification; dispersion compensation; energy extraction; fluorescence lifetime; four-pass confocal amplifier; gain; gain spectrum width; high-gain amplification; high-peak-power amplification; modified bow-tie-style four-pass amplifier; output energy; output pulse compression; power amplifier gain module; saturation fluence; small signal gain; system scalability; tunable ultraviolet laser medium; ultrashort pulse laser systems; ultraviolet all-solid-state high-peak-power CPA laser system; ultraviolet femtosecond pulses; ultraviolet gain media; ultraviolet gain medium; ultraviolet region; Chirp; Gain; Laser excitation; Optical pulses; Pulse amplifiers; Pulse compression methods; Pump lasers; Scalability; Space vector pulse width modulation; Tunable circuits and devices;

fLanguage :

English

Journal_Title :

Selected Topics in Quantum Electronics, IEEE Journal of

Publisher :

ieee

ISSN :

1077-260X

Type :

jour

DOI :

10.1109/2944.974225

Filename :

974225

Link To Document :

https://search.ricest.ac.ir/dl/search/defaultta.aspx?DTC=49&DC=1556308