High-energy picosecond near-vacuum ultraviolet pulses generated by sum-frequency mixing of an amplified Ti:sapphire laser.

High-energy picosecond near-vacuum ultraviolet pulses generated by sum-frequency mixing of an amplified Ti:sapphire laser. Research Abstract Details 

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High-energy picosecond near-vacuum ultraviolet pulses generated by sum-frequency mixing of an amplified Ti:sapphire laser. Abstract Text:

Jiangfeng Zhu,Weijun Ling,Zhaohua Wang,Peng Wang,Jinghua Sun,Zhiyi Wei,Dacheng Zhang,Xinwen Ma,Wenlong Zhan,

We demonstrate high-energy picosecond near-vacuum ultraviolet laser pulse generation. Frequency quadrupling is achieved by noncollinear sum-frequency mixing of the fundamental and the third harmonic of a two-stage Ti:sapphire amplifier in beta-BaB(2)O(4) crystal. UV pulses with energies of approximately 10 mJ tunable from 195 to 210 nm at a 10 Hz repetition rate are obtained.

High-energy picosecond near-vacuum ultraviolet pulses generated by sum-frequency mixing of an amplified Ti:sapphire laser. Publishing Authors By Initials

J Zhu,W Ling,Z Wang,P Wang,J Sun,Z Wei,D Zhang,X Ma,W Zhan,

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High-energy picosecond near-vacuum ultraviolet pulses generated by sum-frequency mixing of an amplified Ti:sapphire laser. Journal Published:

PUBLICATION TYPE: Journal Article

Journal: Applied optics

VOLUME: 46

Page Numbers: 6228-31

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ISSN: 0003-6935

DAY: 1

MONTH: Sep

YEAR: 2007

High-energy picosecond near-vacuum ultraviolet pulses generated by sum-frequency mixing of an amplified Ti:sapphire laser. Information

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LANGUAGE: eng

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Grant and Affiliation Information for High-energy picosecond near-vacuum ultraviolet pulses generated by sum-frequency mixing of an amplified Ti:sapphire laser.

AFFILIATION: Institute of Physics, Chinese Academy of Sciences, Beijing National Laboratory for Condensed Matter Physics, Beijing, 100080, China.

Country: United States

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MEDLINETA: Appl Opt

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