Tracking novelty filter at 780 nm based on a photorefractive polymer in a two-beam coupling geometry

Eric Hendrickx; David Van Steenwinckel; Andre Persoons

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Tracking novelty filter at 780 nm based on a photorefractive polymer in a two-beam coupling geometry

机译：基于双光束耦合几何结构中的光折变聚合物在780 nm处跟踪新颖滤光片

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We have constructed an all-optical tracking novelty filter based on the dynamic holographic properties of an efficient and fast infrared-sensitive photorefractive polymer. The photorefractive polymer was used in a two-beam coupling geometry. The polymer had a gain coefficient of 175 cm~(-1) at a wavelength of 780 nm and an applied field of 72 V/μm. In contrast to what has been observed in photorefractive crystals, the gain coefficient and the filter contrast are largely independent of the writing beam's intensity ratio. We show images of a swinging pendulum observed through the novelty filter.

机译：我们已经建立了一种基于高效且快速的红外敏感光折变聚合物的动态全息特性的全光跟踪新颖滤光片。该光折变聚合物以两束耦合的几何形状使用。该聚合物在780nm的波长下的增益系数为175cm-1（-1），施加电场为72V /μm。与在光折射晶体中观察到的相反，增益系数和滤光器对比度在很大程度上与写入光束的强度比无关。我们显示了通过新奇滤镜观察到的摆动摆的图像。

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《Applied optics》 |2001年第9期|共5页
作者
Eric Hendrickx; David Van Steenwinckel; Andre Persoons;
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中图分类光学;
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1. Tracking novelty filter at 780 nm based on a photorefractive polymer in a two-beam coupling geometry [J] . Eric Hendrickx, David Van Steenwinckel, Andre Persoons Applied optics . 2001,第9期

机译：基于双光束耦合几何结构中的光折变聚合物在780 nm处跟踪新颖滤光片
2. TIME EVOLUTION OF FRINGES OBTAINED WITH A TWO-BEAM COUPLED PHOTOREFRACTIVE NOVELTY FILTER [J] . P. R. Sreedhar, N. Krishna Mohan, R. S. Sirohi Journal of Optics . 1995,第1期

机译：两光束耦合光折变新颖滤波器获得的条纹的时间演化
3. Adaptive RF notch filtering using photorefractive two-beam coupling [J] . Hong J.H., Chang T.Y. IEEE Journal of Quantum Electronics . 1994,第2期

机译：使用光折射两束耦合的自适应RF陷波滤波
4. Performance Comparison of Photorefractive Two-Beam Coupling Correlator with Optimal Filter Based Correlators [C] . Jed Khoury, Mohammad S. Alam, Partha P. Banerjee, Optical pattern recognition XXV . 2014

机译：具有基于最佳滤波器的相关器的光折射两束耦合相关器的性能比较
5. Developments in photorefractive two-beam coupling systems. [D] . Damiao, Valeria B. 2000

机译：光折射两光束耦合系统的发展。
6. Vision-Based Novelty Detection Using Deep Features and Evolved Novelty Filters for Specific Robotic Exploration and Inspection Tasks [O] . Marco Antonio Contreras-Cruz, Juan Pablo Ramirez-Paredes, Uriel Haile Hernandez-Belmonte, 2019

机译：使用深度特征和进化型新颖性过滤器的基于视觉的新颖性检测用于特定的机器人探索和检查任务
7. Contrast manipulation and controllable spatial filtering via photorefractive two-beam coupling [O] . Khoury, J.A., Hussain, G., Eason, R.W. 1989

机译：通过光折变双光束耦合进行对比度操纵和可控空间滤波
8. New Meta Nanomaterials Extension II of Optical Enhancement and Photorefractive Two-Beam Coupling - Synthesis and Fabrication of Quantum Dot NLO Polymer Composites. [R] . Ziolo, R., Moggio, I., Arias, E. 2015

机译：光学增强和光折变双光束耦合的新meta纳米材料扩展II - 量子点NLO聚合物复合材料的合成和制备。

Tracking novelty filter at 780 nm based on a photorefractive polymer in a two-beam coupling geometry

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