Experimental demonstration of phase-dispersion compensation for ultra-broadband femtosecond optical pulses generated by induced-phase modulation

被引:0
|
作者
M. Shibata
M. Hirasawa
N. Nakagawa
R. Morita
A. Suguro
H. Shigekawa
M. Yamashita
机构
[1] Department of Applied Physics,
[2] Hokkaido University and Core Research for Evolutional Science and Technology,undefined
[3] Japan,undefined
[4] Science and Technology Corporation,undefined
[5] Kita-13,undefined
[6] Nishi-8,undefined
[7] Kita-ku,undefined
[8] Sapporo 060-8628,undefined
[9] Japan,undefined
[10] Display Development,undefined
[11] Technical Research Laboratory,undefined
[12] Citizen Watch Co. Ltd.,undefined
[13] 840 Shimotomi,undefined
[14] Tokorozawa 359-0001,undefined
[15] Japan,undefined
[16] Institute of Applied Physics,undefined
[17] University of Tsukuba and Core Research for Evolutional Science and Technology,undefined
[18] Japan Science and Technology Corporation,undefined
[19] 1-1-1 Tennodai,undefined
[20] Tsukuba 305-8573,undefined
[21] Japan,undefined
来源
Applied Physics B | 2002年 / 74卷
关键词
PACS: 42.65.Re; 42.65.Ky; 42.81.Qb;
D O I
暂无
中图分类号
学科分类号
摘要
Spectrally resolved autocorrelation traces of ultra-broadband (730 to 1250 nm) pulses generated by dispersive induced-phase modulation (IPM) and self-phase modulation in a single-mode fused-silica fiber were measured. From these measurements, effective discontinuities in group delay and group-delay dispersion in the overlapping spectral region of two input pulses owing to the IPM effect were found. Not only conventional nonlinear-chirp compensation, but also frequency-independent group-delay adjustment, both of which are essential for pulse compression of ultra-broadband femtosecond pulses generated by IPM, were experimentally demonstrated using a pulse shaper with a spatial light-phase modulator of 648 pixels.
引用
收藏
页码:s291 / s294
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