High-speed horizontal-path atmospheric turbulence correction with a large-actuator-number microelectromechanical system spatial light modulator in an interferometric phase-conjugation engine

K. L. Baker; E. A. Stappaerts; D. Gavel; S. C. Wilks; J. Tucker; D. A. Silva; J. Olsen; S. S. Olivier; P. E. Young; M. W. Kartz; L. M. Flath; P. Kruelevitch; J. Crawford; Oscar Azucena

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High-speed horizontal-path atmospheric turbulence correction with a large-actuator-number microelectromechanical system spatial light modulator in an interferometric phase-conjugation engine

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

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Results of atmospheric propagation for a high-speed, large-actuator-number adaptive optics system are presented. The system uses a microelectromechanical system- (MEMS-) based spatial light modulator correction device with 1024 actuators. Tests over a 1.35-km path achieved correction speeds in excess of 800 Hz and Strehl ratios close to 0.5. The wave-front sensor was based on a quadrature interferometer that directly measures phase. This technique does not require global wave-front reconstruction, making it relatively insensitive to scintillation and phase residues. The results demonstrate the potential of large-actuator-number MEMS-based spatial light modulators to replace conventional deformable mirrors.

机译：给出了高速，大执行器数自适应光学系统的大气传播结果。该系统使用具有1024个执行器的基于微机电系统（MEMS）的空间光调制器校正设备。在1.35公里的路径上进行的测试获得了超过800 Hz的校正速度，斯特列尔比率接近0.5。波前传感器基于直接测量相位的正交干涉仪。该技术不需要整体波前重建，从而使其对闪烁和相位残留相对不敏感。结果表明，基于大促动器数量的基于MEMS的空间光调制器有可能替代传统的可变形反射镜。

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《Optics Letters》 |2004年第15期|共3页
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K. L. Baker; E. A. Stappaerts; D. Gavel; S. C. Wilks; J. Tucker; D. A. Silva; J. Olsen; S. S. Olivier; P. E. Young; M. W. Kartz; L. M. Flath; P. Kruelevitch; J. Crawford; Oscar Azucena;
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1. 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
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. 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
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. Atmospheric turbulence mitigation in free space optical communication systems with retro-modulators. [D] . Saint Georges, Eric. 2010

机译：具有后调制器的自由空间光通信系统中的大气湍流缓解。
6. Correction of depth-induced spherical aberration for deep observation using two-photon excitation fluorescence microscopy with spatial light modulator [O] . Naoya Matsumoto, Takashi Inoue, Akiyuki Matsumoto, 2015

机译：使用具有空间光调制器的双光子激发荧光显微镜对深度感应球差进行深度观察的校正
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

High-speed horizontal-path atmospheric turbulence correction with a large-actuator-number microelectromechanical system spatial light modulator in an interferometric phase-conjugation engine

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