• Title/Summary/Keyword: Spatial light modulator

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Optical Implementation of Nonlinear Holographic Associative Memory using LCTV Spatial Light Modulator (LCTV 공간 광 변조기를 이용한 비선형 홀로그래픽 연상메모리의 광학적 실현)

  • 황의인;이승현;이우상;김은수
    • Journal of the Korean Institute of Telematics and Electronics
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    • v.26 no.11
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    • pp.1872-1879
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    • 1989
  • In this paper, we implement optical holographic associative memory based on the two-dimensional neural network model by using commercial LCTV as a spatial light modulator. The system consists of the simple Vander Lugt correlator utilizing plane Fourier hologram and the pinhole array. The associated output signal is detected on a two-dimensional CCD camera and electronically thresholded and fed back to the input plane of the system. Through the experimental demonstration of nonlinear holographic associative memory, it is suggested that commercial LCTV can be used as a new coherent spatial light modurator.

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Implementation of real-time free-space optical interconnection using spatial light modulator (공간광변조기를 이용한 실시간 자유공간 광연결 구현)

  • Lee, Deug-Ju;Kang, Bong-Gyun;Kim, Nam;Suh, Ho-Hyung
    • The Journal of Korean Institute of Communications and Information Sciences
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    • v.22 no.5
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    • pp.956-966
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    • 1997
  • Dynamic free-space optical interconnection system is experimented by a holographic crossbar with single-state switching architecture. For dynamic operation, electrically addressed liquid-crystal spatial light modulator and diffraction gratings are used in place of passive holograms of matrix-matrix crossbar. Diffraction gratings are consisted of regular cells which have different phase delays. This pixelated phase grating array displayed on SLM(Spatial Light modulator) deflects an input beam toward a wanted direction or splits an input beam into many beams and then steers them to desired positions. Through the experimental results, free-space optical interconnection is dynamically perfomed using a computer, SLM and phase diffraction gratings.

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Diagnosis of Unstained Biological Blood Cells Using a Phase Hologram Displayed by a Phase-only Spatial Light Modulator and Reconstructed by a Fourier Lens

  • Ibrahim, Dahi Ghareab Abdelslam
    • Current Optics and Photonics
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    • v.6 no.6
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    • pp.598-607
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    • 2022
  • In this paper, a simple nondestructive technology is used to investigate unstained biological blood cells in three dimensions (3D). The technology employs a reflective phase-only spatial light modulator (SLM) for displaying the phase hologram of the object being tested, and a Fourier lens for its reconstruction. The phase hologram is generated via superposing a digital random phase on the 2D image of the object. The phase hologram is then displayed by the SLM with 256 grayscale levels, and reconstructed by a Fourier lens to present the object in 3D. Since noise is the main problem in this method, the windowed Fourier filtering (WFF) method is applied to suppress the noise of the reconstructed object. The quality of the reconstructed object is refined and the noise level suppressed by approximately 40%. The technique is applied to objects: the National Institute of Standards (NIS) logo, and a film of unstained peripheral blood. Experimental results show that the proposed technique can be used for rapid investigation of unstained biological blood cells in 3D for disease diagnosis. Moreover, it can be used for viewing unstained white blood cells, which is still challenging with an optical microscope, even at large magnification.

Magneto-Optic Spatial Light Modulator (자기광학 공간 광 변조기)

  • Cho, Jaekyong
    • Proceedings of the Optical Society of Korea Conference
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    • 2000.08a
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    • pp.166-169
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    • 2000
  • This paper briefly reviews magneto-optic spatial light modulators (MOSLMs) developed so far and discusses the design concepts, issues concerning its fabrication, and performances of a new MOSLM based on one-dimensional magnetophotonic crystal (1D-MPC). (omitted)

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Review of Liquid Crystal Spatial Light Modulators at Thales Research & Technology;Technology and Applications

  • Lee, Mane-Si Laure;Loiseaux, Brigitte;Dolfi, Daniel;Tonda, Sylvie;Huignard, Jean-Pierre
    • Journal of Information Display
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    • v.3 no.3
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    • pp.24-29
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    • 2002
  • Liquid Crystal Spatial Light Modulators (LC-SLMs) provide many interesting applications in laser optics and opto-el ectronic systems, in addition to displays. Among them, three topics developed at Thales Research & Technology are reviewed: wavefront correction for laser beam control, microwave processing in radar systems and holography for TN-LCDs viewing angle compensation.

Three-dimensional shape measurement using grating patterns form an optical spatial modulator

  • Tsujioka, Katsumi;Ito, Hiroshi;Furuhashi, Hideo;Higa, Shuntaro;Hayashi, Niichi;Yamada, Jun;Hatano, Kazuo;Uchida, Yoshiyuki
    • 제어로봇시스템학회:학술대회논문집
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    • 1994.10a
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    • pp.561-565
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    • 1994
  • An automatic measuring system of three dimensional shape by a projection method with grating pattern from in optical spatial modulator has been developed. The characteristics of the system were studied. This system is composed of a projector, an optical spatial modulator, a CCD camera, and computer. A liquid crystal is used as the optical spatial modulator. The grating patterns that ire projected on the surface of the object are controlled by the computer connected with the optical spatial modulator. The projector patterns are measured by the CCD camera. The data are transferred to the computer. After a transformation into line data, the data are analyzed to obtain the coordinate of the surface of the object. This system has advantages as follows. (1) It is possible to capture the surface topography without any contact. (2) The time required for the measurements is shorter than the light-section method. (3) An optical spatial modulator using a liquid crystal is possible to control the grating patterns accurately by a computer. Surfaces of a plate and a cylinder were measured. The threshold level had an influence on the measurement. It was shown that this system has adequae accuracy in the measurements.

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Three-dimensional Binocular Holographic Display Using Liquid Crystal Shutter

  • Kim, Hyun-Eui;Kim, Hee-Seung;Jeong, Kyeong-Min;Park, Jae-Hyeung
    • Journal of the Optical Society of Korea
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    • v.15 no.4
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    • pp.345-351
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    • 2011
  • We present a novel approach to the holographic three-dimensional display using a liquid crystal shutter for binocular display applications. One of the difficult problems in implementing a binocular holographic three-dimensional display is the extremely narrow viewing angle. This problem is attributed to the spatial light modulator pixel number which restricts the maximum spatial bandwidth of the spatial light modulator. In our proposed method, a beam splitter and liquid crystal shutter are used to present two holograms of a three-dimensional scene to the corresponding eyes. The combination of holographic display and liquid crystal shutter can overcome the problem of the extremely narrow viewing angle, presenting threedimensional images to both eyes with correct accommodation depth cues.

Angular Multiplexed Holographic Memory System using Moving Window on LCD (LCD에서 움직이는 창을 이용한 각다중화 홀로그래픽 메모리 시스템)

  • 김수길;김규태;김은수
    • Journal of the Korean Institute of Telematics and Electronics D
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    • v.35D no.9
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    • pp.70-76
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    • 1998
  • By controlling the pixel of a LCD spatial light modulator electronically, we made a real-time moving window passing through the light on a LCD spatial light modulator. By using this LCD moving window, we suggested an angular multiplexed holographic memory system and in case of windows of 10$\times$10 pixels and 2$\times$2 pixels the total numbers of address are 1,536 and 38,400, respectively. To demonstrate the feasibility of the proposed method, we recorded and reconstructed 30 images by 30 input addresses.

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Improving Phase Contrast of Digital Holographic Microscope using Spatial Light Modulator

  • Le, Thanh Bang;Piao, Meilan;Jeong, Jong-Rae;Jeon, Seok-Hee;Kim, Nam
    • Journal of the Optical Society of Korea
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    • v.19 no.1
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    • pp.22-28
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    • 2015
  • We propose a new method for improving the phase contrast of a multiphase digital holographic microscope using a spatial light modulator (SLM). Using the SLM as the annulus, our method improves the light contrast of the object edge to achieve higher accuracy. We demonstrate a digital holographic microscopy technique that provides a 30% improvement in the phase contrast compared to conventional microscopy, which utilizes a mechanical annulus. The phase-contrast improvement allows the 3D reconstructed hologram to be determined more precisely.

Iterative Fourier Transform Algorithm Based on the Segmentation of Target Image for a High-Speed Binary Spatial Light Modulator

  • Im, Yeonsu;Kim, Hwi;Hahn, Joonku
    • Journal of the Optical Society of Korea
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    • v.19 no.2
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    • pp.149-153
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    • 2015
  • A digital micro-mirror device (DMD) has the potential to modulate an incident wave with high speed, and the application for holographic display has been studied by many researchers. However, the quality of reconstructed image isn't good in comparison with that from a gray-scale amplitude-only hologram since it is a binary amplitude-only spatial light modulator (SLM). In this paper, we suggest a method generating a set of binary holograms to improve the quality of the reconstructed image. Here, we are concerned with the case for which the object plane is positioned at the Fourier domain of the plane of the SLM. In this case, any point in the Fourier plane is related to all points in the hologram. So there is a chance to generate a set of binary holograms illuminated by incident wave with constant optical power. Moreover, we find an interesting fact that the quality of reconstructed image is improved when the spatial frequency bandwidth of the binary hologram is limited. Therefore, we propose an iterative segmentation algorithm generating a set of binary holograms that are designed to be illuminated by the wave with constant optical power. The feasibility of our method is experimentally confirmed with a DMD.