Breadboard testing of a phase-conjugate engine with an interferometric wave-front sensor and a microelectromechanical systems-based spatial light modulator

Baker KL; Stappaerts EA; Gavel D; Wilks SC; Tucker J; Silva DA; Olsen J; Olivier SS; Young PE; Kartz MW

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Breadboard testing of a phase-conjugate engine with an interferometric wave-front sensor and a microelectromechanical systems-based spatial light modulator

机译：具有干涉波前传感器和基于微机电系统的空间光调制器的相位共轭引擎的实验板测试

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Laboratory breadboard results of a high-speed adaptive-optics system are presented. The wave-front sensor for the adaptive-optics system is based on a quadrature interferometer, which directly measures the turbulence-induced phase aberrations. The spatial light modulator used in the phase-conjugate engine was a microelectromechanical systems-based piston-only correction device with 1024 actuators. Laboratory experiments were conducted with this system utilizing Kolmogorov phase screens to simulate atmospheric phase distortions. The adaptive-optics system achieved correction speeds in excess of 800 Hz and Strehl ratios greater than 0.5 with the Kolmogorov phase screens. (C) 2004 Optical Society of America.

机译：给出了高速自适应光学系统的实验室实验板结果。自适应光学系统的波前传感器基于正交干涉仪，该干涉仪直接测量湍流引起的相差。在相位共轭引擎中使用的空间光调制器是基于微机电系统的仅具有1024个执行器的活塞校正装置。使用该系统利用Kolmogorov相筛来进行实验室实验，以模拟大气相畸变。自适应光学系统使用Kolmogorov相位筛实现了超过800 Hz的校正速度和斯特雷尔比率大于0.5。（C）2004年美国眼镜学会。

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《Applied optics》 |2004年第30期|共9页
作者
Baker KL; Stappaerts EA; Gavel D; Wilks SC; Tucker J; Silva DA; Olsen J; Olivier SS; Young PE; Kartz MW;
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正文语种 eng
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ADAPTIVE-OPTICS; LOOP;

机译：自适应光学;圈;

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1. Breadboard testing of a phase-conjugate engine with an interferometric wave-front sensor and a microelectromechanical systems-based spatial light modulator [J] . Baker KL, Stappaerts EA, Gavel D, Applied Optics . 2004,第30期

机译：具有干涉波前传感器和基于微机电系统的空间光调制器的相位共轭引擎的实验板测试
2. Breadboard testing of a phase-conjugate engine with an interferometric wave-front sensor and a microelectromechanical systems-based spatial light modulator [J] . Baker KL, Stappaerts EA, Gavel D, Applied optics . 2004,第30期

机译：具有干涉波前传感器和基于微机电系统的空间光调制器的相位共轭引擎的实验板测试
3. High-speed horizontal-path atmospheric turbulence correction with a large-actuator-number microelectromechanical system spatial light modulator in an interferometric phase-conjugation engine [J] . K. L. Baker, E. A. Stappaerts, D. Gavel, Optics Letters . 2004,第15期

机译：干涉相位共轭引擎中具有大执行器数微机电系统空间光调制器的高速水平路径大气湍流校正
4. Adaptive compensation of atmospheric turbulence utilizing an interferometric wave-front sensor and a high-resolution MEMS-based spatial light modulator [C] . K.L. Baker, E.A. Stappaerts, D. Gavel, Advanced Wavefront Control: Methods, Devices, and Applications II . 2004

机译：利用干涉波前传感器和高分辨率基于MEMS的空间光调制器对大气湍流进行自适应补偿
5. Spatial Light Modulator-Based Shack Hartmann Wavefront Sensor with Built in Influence Matrix Measurement [D] . Jin, Moonseob. 2018

机译：基于空间光调制器的Shack Hartmann波前传感器，内置影响矩阵测量
6. Spatial Frequency Multiplexing of Fiber-Optic Interferometric Refractive Index Sensors Based on Graded-Index Multimode Fibers [O] . Li Liu, Yuan Gong, Yu Wu, 2012

机译：基于渐变折射率多模光纤的光纤干涉折射率传感器的空间复用
7. Adaptive compensation of atmospheric turbulence utilizing an interferometric wavefront sensor and a high-resolution MEMS-based spatial light modulator [O] . Kevin L. Baker, Eddy A. Stappaerts, Don Gavel, 2004

机译：利用干涉波前传感器的大气湍流自适应补偿和基于高分辨率的基于MEMS的空间光调制器

Breadboard testing of a phase-conjugate engine with an interferometric wave-front sensor and a microelectromechanical systems-based spatial light modulator

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