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Novel, High-power, Mid-infrared Optical Source for the 5-12 Micron Spectrum.

机译：用于5-12微米光谱的新型高功率中红光光源。

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This project has led to important new advances in coherent near to mid infrared light sources on several fronts. By exploiting nonlinear frequency down-conversion techniques based on optical parametric generation and oscillation, we have developed several novel optical sources in different time scales and operating regimes with extended tuning throughout the 1.4 4.2 microns spectral range in the near to mid IR and 6 6.8 microns in the deep mid infrared. The developed devices exploit the new generation of QPM and mid IR nonlinear crystals of MgO:PPLN, MgO:sPPLT, and CdSiP2 together with fiber and solid-state laser technology at 1064 nm as the pump source, resulting in compact, practical, and portable device architectures for many real applications. We have achieve record optical powers of >17 W in cw operation and average powers up to 12 W in the ultrafast picosecond regime at 80 MHz high repetition-rate, covering the spectral range of 1.4 4.2 microns. In the deep mid IR, we have achieved record pulse energies as much as 1.5 mJ at repetition rates as high as 450 MHz, with spectral coverage across 6 6.8 microns. The developed systems have provided a viable new class of tunable coherent light sources for previously inaccessible spectral regions in the near to mid infrared offering record optical powers and pulse energies. With the exploitation of mid IR optical crystals of ZnGeP2 and OPGaAs of high optical quality in cascaded pumping schemes using the near to mid IR parametric sources developed during this project, further wavelength extension into the 5 12 microns spectral range will be feasible. The exploitation of newly emerging Tm fiber laser technology near 2 microns also offers great potential for direct generation of tunable coherent radiation at unprecedented optical powers in the 5 12 microns spectral range using one-step parametric generation in the nonlinear crystals of ZnGeP2, CdSiP2, and OP GaAs.

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Ebrahim-Zadeh, M.;
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年度 2011
页码 1-24
总页数 24
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Coherent optical radiation; Nonlinear optics; Continuous wave lasers; Infrared optical systems; Spain; Foreign reports; Opo(Optical parametric oscillator); Sro(Singly resonant oscillator);

机译：相干光辐射;非线性光学;连续波激光;红外光学系统;西班牙;国外报道; Opo（光参量振荡器）; sro（单共振振荡器）;

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专利

1. High-Power Single-Frequency Source in the Mid-Infrared Using a Singly Resonant Optical Parametric Oscillator Pumped by Yb-Fiber Laser [J] . Mukesh Kumar Shukla, Ritwick Das IEEE journal of selected topics in quantum electronics . 2018,第5期

机译：使用Yb光纤激光器泵浦的单谐振光学参量振荡器在中红外高功率单频源
2. SUBARCSECOND MID-INFRARED IMAGING OF TWO POST-ASYMPTOTIC GIANT BRANCH 21 MICRON SOURCES [J] . SUN KWOK, KEVIN VOLK, BRUCE J. HRIVNAK The Astrophysical journal . 2002,第2aaParta1期

机译：两个渐近后巨人分支21微米源的亚秒次中红外成像
3. Subarcsecond Mid-Infrared Imaging of Two Post-Asymptotic Giant Branch 21 Micron Sources* [J] . Sun Kwok, Kevin Volk, Bruce J. Hrivnak The Astrophysical journal . 2002,第2期

机译：两个渐近后巨型分支21微米源的亚秒中红外成像*
4. Fiber-based, high-power 1-micron source for optical coherence tomography [C] . H. Lim, J. R. Buckley, F.W. Wise, Conference on Lasers and Electro-Optics . 2004

机译：光纤，高功率1微米源用于光学相干性断层扫描
5. Emerging microstructured fibers for linear and nonlinear optical applications in the mid-infrared and terahertz spectrum. [D] . Ung, Bora. 2012

机译：新兴的微结构光纤，用于中红外和太赫兹光谱中的线性和非线性光学应用。
6. Intravascular Optical Coherence Tomography for Characterization of Atherosclerosis with a 1.7 Micron Swept-Source Laser [O] . Yan Li, Joseph Jing, Emon Heidari, -1

机译：1.7微米扫频激光在血管内光学相干断层扫描表征动脉粥样硬化
7. Subarcsecond mid-infrared imaging of two post-asymptotic giant branch 21 micron sources [O] . Kwok S, Volk K, Hrivnak BJ 2002

机译：两个后渐近巨型分支21微米源的亚秒中红外成像

Novel, High-power, Mid-infrared Optical Source for the 5-12 Micron Spectrum.

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