參考文獻 |
7.1 第一章參考文獻
[1.1] A. Einstein, “Zum gegenwärtigen Stande des Strahlungsproblems.” Physikalische Zeitschrift, Band 10, Seite, p.185–193, (1909)
[1.2] A. Einstein, “Entwicklung unserer Anschauungen über das Wesen und die Konstitution der Strahlung.”, Physikalische Zeitschrift, Band 10, Seite, p.817–825, (1909)
[1.3] M. Planck, “On the law of distribution of energy in the normal spectrum.”, Annalen der physik 4.553, p.1, (1901)
[1.4] A. Einstein, “Zur quantentheorie der strahlung.”, Physikalische Zeitschrift, 18, Seite, p.121-128, (1917)
[1.5] T. H. Maiman, “Stimulated optical radiation in ruby.”, Nature, 187, p.493-494, (1960)
[1.6] P. A. Franken, A. E. Hill, C. W. Peter, G. Weinreich, “Generation of Optical Harmonics.”, Physical Review Letters, Vol.7, Number 4, p.118, (1961)
[1.7] J. A. Giordmaine, “Mixing of light beam in crystal.”, Phys. Rev. Lett. 8, P.19, (1962)
[1.8] M. Bass, P. A. Franken, A. E. Hill, C. W. Peter, G. Weinreich, “Optical Mixing.”, Physical Review Letters, Vol.8, Number 18, (1962)
[1.9] W. H. Zachariasen, “Skr. Norske Vid-Ada.”, Oslo, Mat. Naturv, No.4, (1928)
[1.10] A. A. Ballman, “Growth of piezoelectric and ferroelectric materials by the Czochralski technique.”, J. American Ceram. Soc. 48, p.112, (1965)
[1.11] H. D. Megaw, “A note on the structure of lithium niobite.”, Acta. Cryst. A24, p.583, (1968)
[1.12] 胡明理,「Zn:LiNbO3之晶體生長與其特性研究」,中央大學,(2004)
[1.13] P. Lerner, C. Legras and J. P. Duman, “Stoechiométrie des Monocristaux de Métaniobate de Lithium.”, Journal of Crystal Growth,3-4, (1968)
[1.14] K. Kitamura, J. K. Yamamoto, N. Iyi, S. Kimura and T. Hayashi, “Stoichiometric LiNbO3 single crystal growth by double crucible Czochralski method using automatic powder supply system.”, J. Crystal Growth 116, p.327, (1992)
[1.15] 孔勇發,許京軍,張光寅,劉思敏,陸猗,「多功能光電材料 – 鈮酸鋰晶體」,科學出版社,(2005)
[1.16] Y. C. Huang, “Principles of Nonlinear Optics Course Reader.”, Institute of Photonics Technologies / Department of Electrical Engineering, 65 National Tsinghua University, Hsinchu, Taiwan, (2007)
[1.17] 姚健全,徐德剛,「全固態激光及非線性光學頻率轉換技術」,科學出版社,(2007)
[1.18] C. Li, J. Song, D. Shen, N. S. Kim, J. Lu, K. Ueda, “Diode-pumped passively Q-switched Nd:GdVO4 lasers operating at 1.06μm wavelength.” Appl. Phys. B 70(4), p.471-474, (2000)
[1.19] 葉士瑋,陳永富,「熱效應對連續波雷射與脈衝波雷射的影響: 傳統晶體與鍵合晶體的比較」,國立交通大學,碩士論文,民國100年。
[1.20] 張專慶,陳永富,「利用緊貼組合Nd:YAG 及Nd:YVO4 晶體 實現高效率雙波長946 nm 及1064 nm 雷射」,國立交通大學,碩士論文,民國101年。
[1.21] N. Dai Hung, P. Brechignac, “Tunable alternate double-wavelength single grating dye laser for DIAL Systems.”, Applied optics 27.10, p.1906-1908, (1988)
[1.22] I. Mattis, A. Ansmann, D. Müller, U. Wandinger, D. Althausen, “Dual‐wavelength Raman lidar observations of the extinction‐to‐backscatter ratio of Saharan dust.”, Geophysical Research Letters 29.9, p.20-1 (2002)
[1.23] A. Arie, A. Burstein, “Electro-optical device and a wavelength selection method utilizing the same.”, U.S. Patent No. 6, 584, 260. 24 Jun, (2003)
[1.24] X. Feng, L. Sun, L. Xiong, Y. Liu, S. Yuan, G. Kai, X. Dong, “Switchable and tunable dual-wavelength erbium-doped fiber laser based on one fiber Bragg grating.”, Optical Fiber Technology 10.3, p.275-282, (2004)
[1.25] S. Hu, L. Zhan, Y. J. Song, W. Li, S. Y. Luo, Y. X. Xia, “Switchable multiwavelength erbium-doped fiber ring laser with a multisection high-birefringence fiber loop mirror.”, IEEE photonics technology letters 17.7, p.1387-1389, (2005)
[1.26] S. T. Lin, C. S. Hsieh, “Triple-wavelength Nd-laser system by cascaded electro-optic periodically poled lithium niobate Bragg modulator.”, Optics express 20.28, p.29659-29664, (2012)
[1.27] Y. H. Chen, Y. C. Huang, “Actively Q-switched Nd: YVO 4 laser using an electro-optic periodically poled lithium niobate crystal as a laser Q-switch.” Optics letters 28.16, p.1460-1462, (2003)
[1.28] 張煒堃,「以串級式電光週期性晶格極化反轉鈮酸鋰達成三波長主動式Q-調制Nd:YVO4雷射」,國立中央大學,碩士論文,民國98年。
[1.29] F. Ji, B. Zhang, E. Li, H. Li, R. Zhou, T. Zhang, ..., J. Yao, “Theoretical study of the electro-optic effect of aperiodically poled lithium niobate in a Q-switched dual-wavelength laser.”, Optics communications 262.2, p.234-237, (2006)
[1.30] W. K. Chang, Y. H. Chen, J. W. Chang, “Pulsed orange generation optimized in a diode-pumped Nd: YVO4 laser using monolithic dual PPLN electro-optic Q switches.” Optics letters 35.16, p.2687-2689, (2010)
[1.31] J. Janousek, S. Johansson, P. Tidemand-Lichtenberg, S. Wang, J. L. Mortensen, P. Buchhave, F. Laurell, “Efficient all solid-state continuous-wave yellow-orange light source.”, Optics Express 13.4, p.1188-1192, (2005)
[1.32] Copper vapor laser. 取http://en.wikipedia.org/wiki/Copper_vapor_laser
[1.33] Dye laser . 取自 http://en.wikipedia.org/wiki/Dye_laser
7.2 第二章參考文獻
[2.1] D. K. Cheng, “Field and Wave Electromagnetics.” Chap.3 India:Pearson International Edition, (1989)
[2.2] D. H. Jundt, “Temperature-dependent Sellmeier Equation for the Index of Refraction, ne, in Congruent Lithium Niobate.”, Optics Letters, Vol. 22, No. 20, (1997)
[2.3] I. Šolc, “Birefringent chain filters.”, J. of OSA Vol.55, No.6, (1965)
[2.4] D. A. Pinnow, R. L. Abrams, J. F. Lotspeich, D. M. Henderson, T. K. Plant, R. R. Stephens, C. M. Walker, “An electro‐optic tunable filter.” Applied Physics Letters 34.6, p.391~393, (1979)
[2.5] X. Chen, J. Shi, Y. Chen, Y. Zhu, Y. Xia, Y. Chen, “Electro-optic Solc-type wavelength filter in periodically poled lithium niobite.”, Optics letters 28.21, p.2115-2117, (2003)
[2.6] R. Dunsmuir, “Theory of Relaxation Oscillations in Optical Masers.”, J. Electron Control 10, p.453-458, (1961)
[2.7] O. Svelto, D. C. Hanna, “Principles of lasers.”, Vol. 4. New York: Plenum press, (1998)
[2.8] R. W. Boyed, “Nonlinear optics. Elsevier.”, (2003)
7.3 第三章參考文獻
[3.1] Y. Y. Zhu, N. B. Ming, “Second-harmonic generation in a Fibonacci optical superlattice and the dispersive effect of the refractive index.”, Physical Review B 42.6 p.3676, (1990)
[3.2] N. Metropolis, A. W. Rosenbluth, M. N. Rosenbluth, A. H. Teller, E. Teller, “Equation of state calculations by fast computing machines.”, The journal of chemical physics 21.6, p.1087-1092, (1953)
[3.3] S. Kirkpatrick, C. D. Gelatt, M. P. Vecchi, “Optimization by simulated annealing”, science 220.4598, p.671-680, (1983)
[3.4] W. L. She, W. K. Lee, “Wave coupling theory of linear electro-optic effect”, Opt. Comm. 195, p.303-311, (2001)
[3.5] J. Shi, X. Chen, Y. Xia, Y. Chen, “Electro-optical polarization controller based on solc filter in periodically poled lithium niobate”, SPIE 65 Vol. 4905, (2002)
[3.6] C. H. Lin, Y. H. Chen, S. W. Lin, C. L. Chang, Y. C. Hung, J. Y. Chang, “Electro-optic narrowband and multi-wavelength filter in aperiodically poled lithium niobate”, Opt. Exp. Vol.15, No.15, (2007)
7.4 第四章參考文獻
[4.1] G. D. Miller, “Periodically poled lithium niobate: modeling, fabrication, and nonlinear-optical performance.”, Diss. Stanford university, (1998)
7.5 第六章參考文獻
[6.1] 李瑋倫,陳永富「摻釹氟化釔鋰晶體在連續波與被動式 Q 開關雷射之研究。」,國立交通大學,碩士論文,民國99年。
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