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| 研究生: |
蘇威佳 Wei-Chia Su |
|---|---|
| 論文名稱: |
三維亂相編碼之體積全像及其應用 Three-dimensional random phase encoding in volume holograms and the applications |
| 指導教授: |
孫慶成
Ching-cherng Sun |
| 口試委員: | |
| 學位類別: |
碩士 Master |
| 系所名稱: |
理學院 - 光電科學與工程學系 Department of Optics and Photonics |
| 畢業學年度: | 89 |
| 語文別: | 中文 |
| 論文頁數: | 179 |
| 中文關鍵詞: | 體積全像 、全像儲存 、亂相編碼 、光學保密 、光折效應 、光伏效應 、全像連結 |
| 外文關鍵詞: | volume hologram, holographic storage |
| 相關次數: | 點閱:13 下載:0 |
| 分享至: |
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(一) 依據鈮酸鋰晶體的儲存及繞射特性,提出並驗證在九十度架構下多種極化多工儲存的可行性。
(二) 提出一個分析體積全像繞射效率的簡易模式:相位疊加法。可快速計算分析體積全像之繞射效率,同時適用於各種入射架構與各種波前形式的入射光。
(三) 提出一個利用亂相編碼增加體積全像在垂直方向位移零敏度的邊緣狹縫式全像,並以相位疊加法分析其繞射效率對垂直位移量的關係。
(四) 以相位疊加法分析以球面波為參考光之體積全像的三維位移靈敏度,並利用三維位移靈敏度之特性,提出光學儲存與微物3D掃描之應用。
(五) 提出以毛玻璃做相位調制的三維亂相編碼多工儲存架構,使晶體擴展至多層的儲存,同時此系統具有保密功能。
(六) 以亂相編碼之體積全像為架構,提出並驗證一個利用以相位共軛光為讀取架構的亂相編碼保密儲存系統。
(七) 以亂相編碼之體積全像為架構,提出並驗證一個具有翻譯文字功能的光學連結系統。
[1]D. Gabor, “A new Microscopic principle,” Nature 161, 777 (1948).
[2]R. J. Collier, C. B. Burckhardt, and L. H. Lin, Optical Holography (Academic Press, New York, 1971).
[3]P. Günter and J.-P. Huignard eds., Photorefractive Materials and Their ApplicationⅠ,Ⅱ (Spring-Verlag, New York, 1989).
[4]Asthana and B. Finkelstein,“Superdense optical storage system,” IEEE Spectrum, p. 25-31(1995).
[5]F. H. Mok, M. C. Tackitt, and H. M. Stoll, “Storage of 500 High-resolution holograms in LiNbO3 Crystal,” Opt. Lett. 16, 605-607 (1991).
[6]G. A. Rakuljic, V. Leyva, and A. Yariv, “Optical data storage by using orthogonal wavelength-multiplexed volume hologram,” Opt. Lett. 17, 1471-1473 (1992).
[7]H. Y. Li and D. Psaltis, “Three-dimensional holographic disks,” Appl. Opt. 33, 3764-3774 (1994).
[8]C. C. Sun, W. C. Su, Y. N. Lin, Y. OuYang, S. P. The, and B. Wang, “Three dimensional shifting sensitivity of a volume hologram with spherical reference waves,” Opt. Mem. . Neural Networks. 8, 229-236 (1999).
[9]C. Denz, G. Pauliat, G. Rooson, and T. Tschudi, “Volume hologram multiplexing using a deterministic phase encoding method,” Opt. Commun. 85, 171-176 (1991).
[10]C. C. Sun, R. H. Tsou, W. Chang, J. Y. Chang, and M. W. Chang, “Random phase-coded multiplexing of hologram volumes using ground glass,” Opt. Quantum Electron. 28, 1509-1520 (1996).
[11]C. C. Sun, W. C. Su, B. Wang, and Y. OuYang, "Diffraction sensitivity of holograms with random phase encoding," Optics Commun. 175, 67-74 (2000).
[12]C. C. Sun and W. C. Su, “Three-dimensional shifting selectivity of random phase encoding in volume holograms,” Appl. Opt. 40, 1253-1260 (2001)
[13]M. C. Bashaw, J. F. Heanue, A. Aharoni, J. F. Walkup, and L. Hesselink, "Cross-talk considerations for angular and phase-encoded multiplexing in volume holography," J. Opt. Soc. Am. B. 11, 1820-1836 (1994).
[14]H. Lee and S. K. Jin, ”Experimental study of volume holographic interconnects using random patterns,” Appl. Phys. Lett. 62, 2191-2193 (1993).
[15]S. K. Jin and H. Lee, “Optical connections using irregular patterns as object waves in a volume hologram,” Opt. Quantum Electron. 27, 503-510 (1995).
[16]C. C. Sun, Y. M. Chen, and W. C. Su, “An all-optical fiber sensing system based on random phase encoding and volume holographic interconnection,” Opti. Eng. (Letters). 40, 160-161 (2001)
[17]J. F. Heanue, M. C. Bashaw, and L. Hesselink, “ Encrypted holographic data storage based on orthogonal-phase-code multiplexing,” Appl. Opt. 34, 6012-6015 (1995).
[18]P. Refregier and B. Javidi, “ Optical image encryption using input and Fourier plane random phase encoding,” Opt. Lett. 20, 767-769 (1995).
[19]C. C. Sun, W. C. Su, B. Wang, and A. E. T. Chiou, and Y. OuYang " Lateral shifting sensitivity of a ground glass for holographic encryption and multiplexing using phase conjugate readout algorithm," Opt. Commun. 191, 209-224 (2001)
[20]O. Matoba and B. Javidi, “Encrypted optical memory system using three-dimensional keys in the Fresnel domain,“ Opt. Lett. 24, 762-764 (1999).
[21]G. Unnikrishnan, J. Joseph, and K. Singh, “ Optical encryption system that uses phase conjugation in a photorefractive crystal,” Appl. Opt. 37, 8181-8186 (1998).
[22]B. Wang, C. C. Sun, W. C. Su, and A. E. T. Chiou, “Shift tolerance property of an optical double random phase encoding encryption system,” Appl. Opt. 39, 4788-4793 (2000).
[23]S. Wu, S. Yin and F. T. S. Yu, “Sensing with fiber specklegrams,” Appl. Opt. 30, 4468-4470 (1991).
[24]F. T. S. Yu, S. Yin, J. Zhang and, R. Guo, “Application of a fiber-speckle hologram to fiber sensing,” Appl. Opt. 33, 5202-5203 (1994).
[25]S. Yin, P. Purwosumarto and F. T. S. Yu, “Application of fiber specklergram sensor to fine angular alignment,” Opt. Commun. 170, 15-21 (1999).
[26]B. Javidi and J.L. Horner, "Optical pattern recognition for validation and security verification," Opt. Eng. 33, 1752-1756 (1994).
[27]J. T. LaMacchia and D. L. White, "Coded multiple exposure holograms," Appl. Opt. 7, 91-94 (1968).
[28]J. H. Jang, Y. H. Kang, and H. Lee, "Effect of an irregular on wavelength selectivity in a volume hologram," Opt. Lett. 20, 2426-2428 (1995).
[29]K. H. Kim, H. S. Lee, and B. Lee, " Enhancement of the wavelength selectivity of a volume hologram by use of multimode optical fiber referencing," Opt. Lett. 23, 1224-1226 (1998).
[30]Y. H. Kang, K. H. Kim, and B. Lee, "Volume hologram scheme using optical fiber for spatial multiplexing," Opt. Lett. 22, 739-741 (1997).
[31]R. K. Wang, I. A. Watson, and C. Chatwin, "Random phase encoding for optical security," Opt. Eng. 35, 2464-2469 (1996).
[32]S. Lai, "Security holograms using an encoded reference wave," Opt. Eng. 35, 2470-2472 (1996).
[33]B. Javidi and E. Ahouzi, "Optical security system with Fourier plane encoding," Appl. Opt. 37, 6247-6255 (1998).
[34]P. Yeh, Introduction to photorefractive nonlinear optics, John Wiley, New York (1993).
[35]P. Yeh, A. E. T. Chiou, and, J. Hong, “Optical interconnection using photorefractive dynamic holograms,” Appl. Opt. 27, 2093-2096 (1988).
[36] H. Lee, X. G. Gu, and D. Psaltis, “Volume holographic interconnections with maximal capacity and minimal cross talk,” J. Appl. Phys. 65, 2191-2194 (1989)
