參考文獻 |
[1] J. P. Rolland, I. Kaya, K. P. Thompson, and O. Cakmakci, "57.3: Invited Paper: Head‐worn Displays‐Lens Design," in SID Symposium Digest of Technical Papers(Wiley Online Library2010), pp. 855-858.
[2] R. G. Driggers, Encyclopedia of Optical Engineering: Las-Pho, pages 1-14 (CRC press, 2003).
[3] S. Yamazaki, K. Inoguchi, Y. Saito, H. Morishima, and N. Taniguchi, "Thin wide-field-of-view HMD with free-form-surface prism and applications," in Stereoscopic Displays and Virtual Reality Systems VI(SPIE1999), pp. 453-462.
[4] J. P. Rolland, and H. J. P. Fuchs, "Optical versus video see-through head-mounted displays in medical visualization," Presence 9, 287-309 (2000).
[5] N. Cattari, F. Cutolo, R. D’amato, U. Fontana, and V. Ferrari, "Toed-in vs parallel displays in video see-through head-mounted displays for close-up view," IEEE Access 7, 159698-159711 (2019).
[6] P. J. van Heerden, “Theory of optical information storage in solids,” Appl. Opt. 2, 393-400 (1963).
[7] D. Gabor, “A new Microscopic principle,” Nature 161, 777 (1948).
[8] D Gabor, and P. Sciences, "Microscopy by reconstructed wave-fronts," 197, 454-487 Series A. Mathematical and Physical Sciences (1949).
[9] S. S. Orlov, "Volume holographic data storage," Communications of the ACM 43, 46-54 (2000).
[10] J. F. Heanue, M. C. Bashaw, and L. J. S. Hesselink, "Volume holographic storage and retrieval of digital data," Science 265, 749-752 (1994).
[11] G. Barbastathis, and D. J. Brady, "Multidimensional tomographic imaging using volume holography," Proceedings of the IEEE 87, 2098-2120 (1999).
[12] G. Barbastathis, M. Balberg, and D. J. Brady, "Confocal microscopy with a volume holographic filter," Optics letters 24, 811-813 (1999).
[13] A. Chiou, P. Yeh, C. X. Yang, and C. Gu, "Photorefractive coupler for fault-tolerant coupling," IEEE photonics technology letters 7, 789-791 (1995).
[14] A. Chiou, P. Yeh, C. Yang, and C. Gu, "Photorefractive spatial mode converter for multimode-to-single-mode fiber-optic coupling," Optics letters 20, 1125-1127 (1995).
[15] Y. S. Cheng, Z. F. Chen, and C. H. Chen, "Virtual-image generation in 360-degree viewable image-plane disk-type multiplex holography," Optics Express 21, 10301-10313 (2013).
[16] Y. S. Cheng, and C. H. Chen, "Image-plane disk-type multiplex hologram," Applied optics 42, 7013-7022 (2003).
[17] E. Pavel, M. Mihailescu, V. Nicolae, S. Jinga, E. Andronescu, E. Rotiu, L. Ionescu, and C. Mazilu, "Holographic testing of fluorescent photosensitive glass–ceramics," Optics Communications 284, 930-933 (2011).
[18] R. Erf, Holographic nondestructive testing (Elsevier, 2012).
[19] Z. Márton, I. Kisapáti, Á. Török, V. Tornari, E. Bernikola, K. Melessanaki, P. J. N. Pouli, and E. International, "Holographic testing of possible mechanical effects of laser cleaning on the structure of model fresco samples," NDT & E International 63, 53-59 (2014).
[20] D. A. Buralli, and G. M. Morris, "Design of diffractive singlets for monochromatic imaging," Applied Optics 30, 2151-2158 (1991).
[21] D. A. Buralli, and G. M. Morris, "Design of two-and three-element diffractive Keplerian telescopes," Applied Optics 31, 38-43 (1992).
[22] D. Faklis, and G. M. Morris, "Spectral properties of multiorder diffractive lenses," Applied Optics 34, 2462-2468 (1995).
[23] M. D. Missig, and G. M. Morris, "Diffractive optics applied to eyepiece design," Applied Optics 34, 2452-2461 (1995).
[24] C. Londono, W. T. Plummer, and P. P. Clark, "Athermalization of a single-component lens with diffractive optics," Applied Optics 32, 2295-2302 (1993).
[25] M. E. Motamedi, A. P. Andrews, W. J. Gunning III, and M. Khoshnevisan, "Miniaturized micro-optical scanners," Optical Engineering 33, 3616-3623 (1994).
[26] J. R. Leger, D. Chen, and G. Mowry, "Design and performance of diffractive optics for custom laser resonators," Applied Optics 34, 2498-2509 (1995).
[27] F. T. Chen, and H. G. Craighead, "Diffractive lens fabricated with mostly zeroth-order gratings," Optics letters 21, 177-179 (1996).
[28] H. Kogelnik, "Coupled wave theory for thick hologram gratings," in Landmark Papers On Photorefractive Nonlinear Optics(World Scientific, 1995), pp. 133-171.
[29] P. Yeh, Introduction to photorefractive nonlinear optics (Wiley-Interscience, 1993).
[30] C. C. Sun, M. S. Tsaur, W. C. Su, B. Wang, and A. E. Chiou, "Two-dimensional shifting tolerance of a volume-holographic correlator," Applied Optics 38, 4316-4324 (1999).
[31] D. Staebler, W. Burke, W. Phillips, and J. J. Amodei, "Multiple storage and erasure of fixed holograms in Fe− doped LiNbO3," Applied Physics Letters 26, 182-184 (1975).
[32] J. F. Heanue, M. C. Bashaw, and L. Hesselink, "Volume holographic storage and retrieval of digital data," Science 265, 749-752 (1994).
[33] W. C. Su, Y. W. Chen, C. C. Sun, and Y. Ouyang, "Multilayer storage in a shift-multiplexed holographic disk," Optical Engineering 42, 1528-1529 (2003).
[34] A. P. Yakimovich, and Spectroscopy, "Selective properties of 3-d holographic gratings using spherical wave fronts," Optics and Spectroscopy 47, 530-535 (1979).
[35] D. Psaltis, M. Levene, A. Pu, G. Barbastathis, and K. Curtis, "Holographic storage using shift multiplexing," Optics letters 20, 782-784 (1995).
[36] G. Barbastathis, M. Levene, and D. Psaltis, "Shift multiplexing with spherical reference waves," Applied Optics 35, 2403-2417 (1996).
[37] G. A. Rakuljic, V. Leyva, and A. Yariv, "Optical data storage by using orthogonal wavelength-multiplexed volume holograms," Optics letters 17, 1471-1473 (1992).
[38] S. Campbell, X. Yi, and P. Yeh, "Hybrid sparse-wavelength angle-multiplexed optical data storage system," Optics letters 19, 2161-2163 (1994).
[39] S. Yin, H. Zhou, F. Zhao, M. Wen, Z. Yang, J. Zhang, and T. S. Francis, "Wavelength multiplexed holographic storage in a sensitive photorefractive crystal using a visible-light tunable diode laser," Optics communications 101, 317-321 (1993).
[40] C. C. Sun, W. C. Su, B. Wang, and Y. OuYang, "Diffraction selectivity of holograms with random phase encoding," Optics Communications 175, 67-74 (2000).
[41] C. C. Sun, and W. C. Su, "Three-dimensional shifting selectivity of random phase encoding in volume holograms," Applied Optics 40, 1253-1260 (2001).
[42] 蘇威佳,三維亂相編碼之體積全像及其應用,國立中央大學光電科學研究所博士論文, 中華民國九十年。
[43] C. C. Sun, “Simplified model for diffraction analysis of volume holograms,” Opt. Eng. 42, 1184-1185 (2003).
[44] Y. W. Yu, C. Y. Cheng, T. C. Teng, C. H. Chen, S. H. Lin, B. R. Wu, C. C. Hsu, Y. J. Chen, X. H. Lee, and C. Y. Wu, "Method of compensating for pixel migration in volume holographic optical disc (VHOD)," Optics Express 20, 20863-20873 (2012).
[45] Y. W. Yu, T. C. Teng, S. C. Hsieh, C. Y. Cheng, and C. C. Sun, "Shifting selectivity of collinear volume holographic storage," Optics communications 283, 3895-3900 (2010).
[46] 孫慶成,鈦酸鋇之光折非均向繞射與應用之研究,國立中央大學光電所博士論文,中華民國八十二年。
[47] M. B. Klein, “Photorefractive properties of BaTiO3,” in Photorefractive Materials and Their Applications I, P. Günter, J. P. Huignard, eds., 195-236, (Springer-Verlag, Berlin, 1988).
[48] W. R. Klein, ”Theoretical Efficiency of Bragg Devices,” Proc. IEEE 54, 803(1966)
[49] C. C. Sun, T. C. Teng, and Y. W. Yu, "One-dimensional optical imaging with a volume holographic optical element," Optics letters 30, 1132-1134 (2005).
[50] A. Yariv, and P. Yeh, Optical waves in crystals (Wiley New York, 1984).
[51] P. Yeh, Introduction to photorefractive nonlinear optics (Wiley-Interscience, 1993).
[52] J. W. Goodman, Introduction to Fourier Optics, 3rd eds. (McGraw-Hill, New York, 2002).
[53] 鄭智元,利用相位調製改良同軸式體積全像儲存系統,國立中央大學光電科學研究所碩士論文,2008 年。
[54] 余業緯,同軸全像儲存系統之特性與改良及溫度補償,國立中央大學光電所博士論文,中華民國九十八年。 |