BINARY ADAPTIVE OPTICS - ATMOSPHERIC WAVE-FRONT CORRECTION WITH A HALF-WAVE PHASE SHIFTER

Love GD.; Birch P.; Buscher D.; Doel P.; Dunlop C.; Major J. Myers R.; Purvis A.; Sharples R.; Vick A.; Zadrozny A.; Restaino SR. Glindemann A.; Andrews N.

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BINARY ADAPTIVE OPTICS - ATMOSPHERIC WAVE-FRONT CORRECTION WITH A HALF-WAVE PHASE SHIFTER

机译：二元自适应光学-具有半波移相器的大气波前校正

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We describe a binary approach to adaptive wave-front correction, especially suitable for narrow band applications, which would be simpler than conventional adaptive technology. Appropriate parts of the aberrant wave front are phase retarded by half a wavelength to ensure that none of the image-forming rays add together destructively. Simulations for monochromatic light show that the residual wave-front errors, in the absence of other errors, would result in Strehl ratios of similar to 40% with diffraction-limited widths at visible wavelengths. We simulate the imaging performance of such a system and describe a possible implementation that uses a ferroelectric liquid-crystal spatial light modulator. [References: 18]

机译：我们描述了一种自适应波前校正的二进制方法，该方法特别适用于窄带应用，该方法比常规的自适应技术更简单。畸变波阵面的适当部分被相位延迟了半个波长，以确保没有任何图像形成射线相消地相加。对单色光的仿真表明，在没有其他误差的情况下，残留波前误差将导致Strehl比率接近40％，并且在可见波长处具有衍射极限宽度。我们模拟了这种系统的成像性能，并描述了使用铁电液晶空间光调制器的可能实现。 [参考：18]

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《Applied optics》 |1995年第27期|共9页
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Love GD.; Birch P.; Buscher D.; Doel P.; Dunlop C.; Major J. Myers R.; Purvis A.; Sharples R.; Vick A.; Zadrozny A.; Restaino SR. Glindemann A.; Andrews N.;
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正文语种 eng
中图分类光学;
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1. BINARY ADAPTIVE OPTICS - ATMOSPHERIC WAVE-FRONT CORRECTION WITH A HALF-WAVE PHASE SHIFTER [J] . Love GD., Birch P., Buscher D., Applied optics . 1995,第27期

机译：二元自适应光学-具有半波移相器的大气波前校正
2. Adaptive optics: wave-front correction by use of adaptive filtering and control [J] . James Steven Gibson, Chi-Chao Chang, Brent L. Ellerbroek Applied optics . 2000,第16期

机译：自适应光学：通过自适应滤波和控制进行波前校正
3. Linear prediction of atmospheric wave-fronts for tomographic adaptive optics systems: modelling and robustness assessment [J] . Jackson Kate, Correia Carlos, Lardiere Olivier, Optics Letters . 2015,第2期

机译：层析成像自适应光学系统大气波前的线性预测：建模和鲁棒性评估
4. Adaptive Optics Techniques without a Wave-front Sensor Based on Guide Laser in Atmospheric Laser Communications [C] . Xiaolin Wang, Xiaqjun Xu, Pu Zhou, Optoelectronic measurement technology and systems . 2009

机译：大气激光通信中基于导引激光器的无波前传感器的自适应光学技术
5. Atmospheric wavefront sensing and correction including the stellar phase shifting interferometer. [D] . Colucci, D'nardo. 1993

机译：大气波前感测和校正，包括恒星相移干涉仪。
6. Phase aberration correction by correlation in digital holographic adaptive optics [O] . Changgeng Liu, Xiao Yu, Myung K. Kim -1

机译：通过数字全息自适应光学中的相关性校正相差
7. Linear prediction of atmospheric wave-fronts for tomographic Adaptive Optics systems: modelling and robustness assessment [O] . Jackson, Kate, Correia, Carlos, Lardiere, Olivier, 2015

机译：层析自适应系统大气波阵面的线性预测光学系统：建模和稳健性评估
8. Interferometric Adaptive Optics for High Power Laser Pointing, Wave-Front Control and Phasing [R] . Baker, K. L., Stappaerts, E. A., Homoelle, D. C., 2009

机译：用于高功率激光指向，波前控制和相位的干涉自适应光学器件

BINARY ADAPTIVE OPTICS - ATMOSPHERIC WAVE-FRONT CORRECTION WITH A HALF-WAVE PHASE SHIFTER

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