Presentation 2006-06-02
160 GHz repetition rate injection seeded pulsed Ti: sapphire laser
Hotaka Kamikura, Hiroyuki SATO, Masayuki KATURAGAWA, Sigehiro TAKASAKA, Yasuyuki OZEKI,
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Abstract(in English) We generate intense pulse trains with ultra-high repetition rate by using injection seeding of optical comb for a high power Ti: sapphire laser. In order to convert into gain frequency of Ti: sapphire, we use a PPLN crystal to generate second harmonics of optical comb with center wavelength of 1555nm. The amplified pulse train has a repetition rate of 160GHz which corresponds to the differential frequency of the optical comb. The duration of pulses consist of pulse trains is about 1.1ps with peak intensity of about 4MW. This system has potential applications for many experimental studies of intense laser physics and chemistry as an ideal light source of intense pulse train with ultra-high repetition rate.
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Keyword(in English) Optical-comb / injection seeded / pulse Ti: sapphire laser
Paper # LQE2006-9
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Committee LQE
Conference Date 2006/5/26(1days)
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Registration To Lasers and Quantum Electronics (LQE)
Language JPN
Title (in Japanese) (See Japanese page)
Sub Title (in Japanese) (See Japanese page)
Title (in English) 160 GHz repetition rate injection seeded pulsed Ti: sapphire laser
Sub Title (in English)
Keyword(1) Optical-comb
Keyword(2) injection seeded
Keyword(3) pulse Ti: sapphire laser
1st Author's Name Hotaka Kamikura
1st Author's Affiliation Department of Applied Physics & Chemistry, University of Electro-Communications()
2nd Author's Name Hiroyuki SATO
2nd Author's Affiliation Department of Applied Physics & Chemistry, University of Electro-Communications
3rd Author's Name Masayuki KATURAGAWA
3rd Author's Affiliation Department of Applied Physics & Chemistry, University of Electro-Communications:PRESTO, JST
4th Author's Name Sigehiro TAKASAKA
4th Author's Affiliation FITEL photonics Lab., Furukawa Electric Co., Ltd.:PRESTO, JST
5th Author's Name Yasuyuki OZEKI
5th Author's Affiliation PRESTO, JST
Date 2006-06-02
Paper # LQE2006-9
Volume (vol) vol.106
Number (no) 90
Page pp.pp.-
#Pages 3
Date of Issue