Chinese Journal of Lasers, Volume. 41, Issue 2, 209018(2014)
Diffraction Characteristic Analysis of Reflection Volume Holographic Gratings at Non-Uniform Swelling or Shrinking
[1] [1] N V Kukhtareva, T V Kukhtareva, R D Jones, et al.. Real time holography for optical processing using photorefractive crystals[C]. SPIE, 1999, 3793: 90-102.
[2] [2] S Orlic, S Ulm, H J Eicher. 3D bit-oriented optical storage in photopolymers[J]. J Opt A: Pure Appl Opt, 2001, 3(1): 72-81.
[3] [3] Wang Hao, Yuan Xiao, Zhan Xiang, et al.. Influence of volume Bragg grating reflectivity on spectrum of external cavity laser diode array[J]. Chinese J Lasers, 2012, 39(6): 0602004.
[4] [4] P Jelger, F Laurell. Efficient narrow-linewidth volume-Bragg grating locked Ndfiber laser[J]. Opt Express, 2007, 15(18): 11336-11340.
[5] [5] C Moser, F Havemeyer. Distortion free pulse stretching and compression by chirped volume holographic gratings[C]. SPIE, 2010, 7581:75810E.
[6] [6] Matthew Rever, Guoqing Chang, Vadim Smimov, et al.. Temporal reciprocity of chirped volume Bragg grating pulse compressors[C]. San Jose: Confererue on Lasers and Electro-Optics, 2010. CthA3.
[8] [8] Hiroshi Mukawa, Katsuyuki Akutsu, Ikuo Matsumura, et al.. A full-color eyewear display using planar waveguides with reflection volume holograms[J]. J Soc Inf Display, 2009, 17(3): 185-193.
[9] [9] A Belendez, I V Pascual, A Fimia. Experimental results in thickness and index variations to the analysis of holographic aberrations[C]. SPIE, 1990, 1319: 305.
[10] [10] A Belendez, I Pascual, A Fimia. Model for analyzing the effects of processing on recording material in thick holograms[J]. J Opt Soc Am A, 1992, 9(7): 1214-1223.
[11] [11] T Kubota. The bending of interference fringes inside a hologram[J]. Opt Acta, 1979, 26(6): 731-743.
[12] [12] A Beléndez, I Pascual, A Fimia. Efficiency of thick phase holograms in the presence of shear-type effects due to processing[J]. J Mod Opt, 1992, 39(4): 889-899.
[13] [13] N Kamiya. Rigorous coupled-wave analysis for practical planar dielectric gratings: 2. Diffraction by a surface-eroded hologram layer[J]. Appl Opt, 1998, 37(25): 5854-5863.
[14] [14] H Schutte, V Dederichs, C G Stojanoff. Methods for influencing the optical properties of dichromated gelatin films[C]. SPIE, 1994, 2262: 284-295.
[15] [15] H Schutte, C G Stojanoff. Effects of process control and exposure energy upon the inner structure and the optical properties of volume holograms in dichromated gelatin films[C]. SPIE, 1997, 3011: 255-266.
[16] [16] C G Stojanoff. The effects of the film manufacturing techniques, of the exposure procedures and of the development and post-treatment thermo chemical processes on the holographic properties of HOEs in DCG[C]. SPIE, 2006, 6252: 62521V.
[17] [17] L B Au, J C W Newell, L Solymar. Non-uniformities in thick dichromated gelatin transmission gratings[J]. J Mod Opt, 1987, 34(9): 1211-1215.
[18] [18] N Kamiya. Rigorous coupled-wave analysis for practical planar dielectric gratings: 1. Thickness-changed holograms and some characteristics of diffraction efficiency[J]. Appl Opt, 1998, 37(25): 5843-5853.
[19] [19] M G Moharam, T K Gaylord. Rigorous coupled-wave analysis of planar-grating diffraction[J]. J Opt Soc Am, 1981, 71(7): 811-818.
[20] [20] C Neipp, Jorge Frances, Manuel Perez-Molina, et al.. Transference matrix method for non-slanted holographic reflection gratings[C]. SPIE, 2010, 7717: 771706.
[21] [21] Han Jian, Bayanheshig, Li Wenhao, et al.. Profile evolution of the grating masks according to the exposure dose and interference fringe contrast in the fabrication of holographic grating[J]. Acta Optica Sinica, 2012, 32(3): 0305001.
[22] [22] I Aubrecht, M Miler, I Koudela. Recording of holographic diffraction gratings in photopolymers: theoretical modeling and real-time monitoring of grating growth[J]. J Mod Opt, 1998, 45(7): 1465-1477.
[23] [23] C Neipp, M L Alvarez, S Gallego, et al.. Comparison between a thin matrix decomposition method and the rigorous coupled wave theory applied to volume diffraction gratings[J]. Optik, 2003, 114(12): 529-534.
[24] [24] H Kogelnik. Coupled wave theory for thick hologram gratings[J]. Bell Syst Techn J, 1969, 48(9): 2909-2947.
[25] [25] S Gallego, M Ortuo, C Neipp, et al.. Physical and effective optical thickness of holographic diffraction gratings recorded in photopolymers[J]. Opt Express, 2005, 13(6): 1939-1947.
[26] [26] B J Chang, C D Leonard. Dichromated gelatin for the fabrication of holographic optical elements[J]. Appl Opt, 1979, 18(14): 2407-2417.
[27] [27] Xiong Liangwen, Liu Shihong, Peng Bixian. Mechanism of hologram formation in dichromated gelatin with X-ray photoelectron spectroscopy[J]. Appl Opt, 1998, 37(17): 3678-3684.
Get Citation
Copy Citation Text
He Tianbo, Bayanheshig, Qi Xiangdong, Li Wenhao, Tang Yuguo. Diffraction Characteristic Analysis of Reflection Volume Holographic Gratings at Non-Uniform Swelling or Shrinking[J]. Chinese Journal of Lasers, 2014, 41(2): 209018
Category: holography and information processing
Received: Aug. 19, 2013
Accepted: --
Published Online: Jan. 21, 2014
The Author Email: Tianbo He (hetianbo163@163.com)