Excess noise in low Fresnel number unstable resonators

McDonald G.S.; Woerdman J.P.; New G.H.C.

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Excess noise in low Fresnel number unstable resonators

机译：低菲涅耳数不稳定谐振器中的噪声过大

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Numerical calculations of excess noise factors in low Fresnel number unstable resonators are described in detail. Computed mode profiles in one transverse dimension together with associated Petermann K-factors are presented; dynamical considerations such as injected wave excitation are also examined. The properties of the zero-order modes are consistent with virtual source theory and with a simple formula for K based on a geometrical optics approximation. While virtual source theory is asymptotic, we find that it can make good predictions for Fresnel numbers as low as unity. Full numerical calculations are however needed to determine accurate mode profiles and K-factors in some regimes. A new technique for calculating accurate higher-order mode profiles is also developed and this is employed to evaluate K-factor dependencies of the first two higher-order even modes.

机译：详细介绍了低菲涅耳数不稳定谐振器中多余噪声因子的数值计算。给出了在一个横向维度上的计算模式轮廓以及相关的Petermann K因子;动力学方面的考虑，如注入波激发也进行了检查。零阶模的性质与虚拟源理论和基于几何光学近似的K的简单公式一致。虽然虚拟源理论是渐近的，但我们发现它可以对低至1的菲涅耳数做出很好的预测。然而，在某些情况下需要全数值计算来确定准确的模式轮廓和K因子。还开发了一种用于计算准确的高阶模态分布的新技术，并将其用于评估前两个高阶偶数模态的K因子依赖性。

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《Optics Communications: A Journal Devoted to the Rapid Publication of Short Contributions in the Field of Optics and Interaction of Light with Matter》 |1999年第4期|共11页
作者
McDonald G.S.; Woerdman J.P.; New G.H.C.;
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正文语种 eng
中图分类光学;
关键词
Optical resonators; Spurious signal noise; Quantum optics; Numerical methods; Geometrical optics; Lasers; Diffraction gratings; Fresnel number; Quantum noise; Modes;

机译：光学谐振器;杂散信号噪声;量子光学;数值方法;几何光学;激光;衍射光栅;菲涅耳数;量子噪声;模式;

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1. Excess noise in low Fresnel number unstable resonators [J] . G.S. McDonald, G.H.C. New, J.P. Woerdman Optics Communications: A Journal Devoted to the Rapid Publication of Short Contributions in the Field of Optics and Interaction of Light with Matter . 1999,第4a6期

机译：低菲涅耳数不稳定谐振器中的噪声过大
2. Excess noise of the misaligned off-axis confocal unstable resonators [J] . Wu Chao, Li Gen, Xiong Zhenjun Optik: Zeitschrift fur Licht- und Elektronenoptik: = Journal for Light-and Electronoptic . 2019,第期

机译：未对准的轴外谐波不稳定谐振器的过度噪音
3. Excess noise in strip off-axis confocal unstable resonators [J] . Li G., Tang X., Wang D., Journal of Modern Optics . 2012,第3a4期

机译：带状离轴共焦不稳定谐振器中的噪声过大
4. Monolithic unstable-resonator Q-switched solid-state laser with large Fresnel number [C] . Hua Liu, Shou-Huan Zhou, Y.C. Chen Advanced Solid State Lasers . 1998

机译：大菲涅耳数的单片不稳定谐振器Q开关固态激光器
5. Ultra-Narrow Bandwidth Optical Resonators for Integrated Low Frequency Noise Lasers. [D] . Spencer, Daryl T. 2016

机译：用于集成低频噪声激光器的超窄带宽光学谐振器。
6. Suppression of low-frequency charge noise in superconducting resonators by surface spin desorption [O] . S. E. de Graaf, L. Faoro, J. Burnett, -1

机译：通过表面自旋解吸抑制超导谐振器中的低频电荷噪声
7. Mode degeneracies and the Petermann excess-noise factor for unstable lasers [O] . M. V. Berry 2003

机译：模式退化和不稳定激光的petermann过量噪声因子
8. Optimization of Coherent Lidar Performance Using Graded- Reflectance Transmitter Resonator Optics in the Low Equivalent Fresnel Number Region [R] . Tratt, D. M. 1995

机译：低等效菲涅耳数区域中渐变反射发射器谐振腔光学器件对相干激光雷达性能的优化

Excess noise in low Fresnel number unstable resonators

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