Bandwidth study of volume holography in photorefractive InP : Fe for femtosecond pulse readout at 1.5 mu m

Ding Y.; Zheng Z.; Kanan A.; Weiner AM.; Brost GA.; Nolte DD.

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Bandwidth study of volume holography in photorefractive InP : Fe for femtosecond pulse readout at 1.5 mu m

机译：光折变InP：Fe体积全息术在1.5微米的飞秒脉冲读出的带宽研究。

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The Bragg selectivity of volume holograms makes them not well suited for many Fourier imaging processing applications in the space domain because they perform the function of a spatial filter and limit the field of view. Similarly, for femtosecond pulse holography they reduce the spectral bandwidth of the diffracted signal. However, we show both theoretically and experimentally that it is much easier in the frequency domain than in the space domain to achieve a large enough diffraction bandwidth of volume holograms for the bandwidth of 100-fs pulses to be used for frequency-domain femtosecond pulse shaping. The experiments were performed by nondegenerate four-wave mixing in photorefractive InP:Fe with femtosecond readout at 1.5 mu m. (C) 1998 Optical Society of America [S0740-3224(98)02010-4]. [References: 29]

机译：体积全息图的布拉格选择性使其不适用于空间域中的许多傅立叶成像处理应用程序，因为它们执行空间滤镜的功能并限制了视场。类似地，对于飞秒脉冲全息术，它们减小了衍射信号的频谱带宽。但是，我们在理论和实验上都表明，对于100-fs脉冲的带宽要用于频域飞秒脉冲整形，在频域中比在空间域中容易获得足够大的体积全息图衍射带宽。。通过在光折变InP：Fe中进行非简并四波混合并以1.5μm的飞秒读数进行实验。（C）1998年美国眼镜学会[S0740-3224（98）02010-4]。 [参考：29]

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《Journal of the Optical Society of America, B. Optical Physics》 |1998年第11期|共6页
作者
Ding Y.; Zheng Z.; Kanan A.; Weiner AM.; Brost GA.; Nolte DD.;
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正文语种 eng
中图分类光学;
关键词
Quantum-wells; Transform correlator; Gain enhancement; Crystal; Resonance; Laser;

机译：量子阱变换相关器增益增强晶体共振激光;

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1. Bandwidth study of volume holography in photorefractive InP : Fe for femtosecond pulse readout at 1.5 mu m [J] . Ding Y., Zheng Z., Kanan A., Journal of the Optical Society of America, B. Optical Physics . 1998,第11期

机译：光折变InP：Fe体积全息术在1.5微米的飞秒脉冲读出的带宽研究。
2. Photorefractive effect in iron-doped lithium niobate crystals induced by femtosecond pulses of 1.5 μm wavelength [J] . O. Beyer, I. Breunig, F. Kalkum, Applied Physics Letters . 2006,第5期

机译：1.5μm波长的飞秒脉冲在掺铁铌酸锂晶体中的光折变效应
3. Bandwidth-limited diffraction of femtosecond pulses from photorefractive quantum wells [J] . Brubaker R.M., Yi Ding IEEE Journal of Quantum Electronics . 1997,第12期

机译：飞秒脉冲来自光折变量子阱的带宽受限衍射
4. Nonvolatile photorefractive spectral holography for time-domain storage of femtosecond pulses [C] . Oba, K., Sun, . 2001

机译：非易失性光折变全息术，用于时域存储飞秒脉冲
5. Ultra-broadband Superradiant Pulses from Femtosecond Laser Pumped InP based Quantum Well Laser Diode. [D] . Liu, Jingjing. 2015

机译：飞秒激光泵浦基于InP的量子阱激光二极管的超宽带超辐射脉冲。
6. Characterization of Nyquist ghost in EPI‐fMRI acquisition sequences implemented on two clinical 1.5 T MR scanner systems: effect of readout bandwidth and echo spacing [O] . Marco Giannelli, Stefano Diciotti, Carlo Tessa, 2010

机译：在两个临床1.5 T MR扫描仪系统上实施的EPI-fMRI采集序列中的Nyquist幻影表征：读出带宽和回声间隔的影响
7. High-speed photorefractive keratectomy with femtosecond ultraviolet pulses [O] . Egle Danieliene, Egle Gabryte, Mikas Vengris, 2015

机译：具有飞秒紫外线脉冲的高速光折变角膜切除术

Bandwidth study of volume holography in photorefractive InP : Fe for femtosecond pulse readout at 1.5 mu m

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