進階搜尋


   電子論文尚未授權公開,紙本請查館藏目錄
(※如查詢不到或館藏狀況顯示「閉架不公開」,表示該本論文不在書庫,無法取用。)
系統識別號 U0026-2607201917292300
論文名稱(中文) 利用瓶形光束泵源產生光學渦流並探討其非線性動態行為
論文名稱(英文) Generation and nonlinear dynamics of optical vortex beam with bottle beam pumping
校院名稱 成功大學
系所名稱(中) 光電科學與工程學系
系所名稱(英) Department of Photonics
學年度 107
學期 2
出版年 108
研究生(中文) 謝佳憲
研究生(英文) Chia-Hsien Hsieh
電子信箱 12345678987654321eric@gmail.com
學號 L76061375
學位類別 碩士
語文別 中文
論文頁數 44頁
口試委員 指導教授-魏明達
口試委員-曾盛豪
口試委員-徐旭政
口試委員-黃勝廣
中文關鍵字 光學渦流  軌跡角動量  混沌  極端事件 
英文關鍵字 optical vortex  Orbital angular momentum  Laguerre-Gaussian mode  nonlinear dynamics  chaotic  extreme events 
學科別分類
中文摘要 本實驗中使用瓶型光束泵浦兩面鏡平凹共振腔的雷射系統,通過改變聚焦距離可以改變晶體上泵源光環的與否與狀態,藉此產生不同股數的光學渦流,並藉由馬赫.曾爾德干涉儀驗證其相位分佈。
同時我們也在泵源做時序上的調製觀察這個系統的非線性動態行為,我們把調製的頻率靠近雷射系統的鬆弛震盪頻率,使調製頻率與鬆弛震盪頻率共振並使用不同大小環的泵源光打在增益晶體;比較當產生不同股數的渦流它們的非線性動態行為有那些差異。
最後我們會把腔長小幅移動到最近的橫模簡併腔,是1/3橫模簡併的位置,除了比較不同股數的渦流他們的非線性動態行為有哪些差異,同時也比較簡併腔與非簡併腔非線性動態行為的差異。
英文摘要 In the first part of the experiment, we use the 808 nm bottle beam to pump the Nd:YVO4 laser to generate optical vortices. The bottle beam had different spot sizes at different distance, so we adjusted the cavity length to obtain several different spot sizes to pump the crystal. By doing this, optical vortices with different orbital angular momentums has been generated. In the second part of the experiment, we added a sinusoidal modulation signal, which was near the relaxation oscillation signal of the system, directly to the pumping source to analyze the output signals of optical vortices with different topological charges. We also made a comparison of the output signals of the mode-degenerate cavity configuration and the non-mode-degenerate cavity configuration.
論文目次 第一章:序論 1
1-1 簡介 1
1-2 動機 4
第二章:概念與原理 5
2-1 由軸稜錐透鏡產生BOTTLE BEAM 5
2-2 光學渦流與LAGUERRE-GAUSSIAN MODE 9
2-3 雷射混沌行為與極端事件 15
第三章:實驗數據 20
3-1 實驗架構 20
3-2 實驗方式 22
3-3 由環形泵源產生的光學渦流 24
3-4 渦流的非線性動態行為 30
第四章:結論與未來展望 42
參考文獻 43

參考文獻 [1] R. Beth, “Mechanical detection and measurement of the angular momentum of light,” Phys. Rev. 50, 115-125 (1936).
[2] L. Allen, M. W. Beijersbergen, R. J. C. Spreeuw, and J. P. Woerdman, “Orbital angular-momentum of light and the transformation of Laguerre-Gaussian laser modes,” Phys. Rev. A 45, 8185-8189 (1992)
[3]Grier, David G. "A revolution in optical manipulation." Nature 424(6950), p. 810-816(2003).
[4]Manek, I., Yu B. Ovchinnikov, and R. Grimm. “Generation of a hollow laser beam for atom trapping using an axicon” Opt commun 147(1) 67-70 (1998).
[5]David G. Grier,’’A revolution in optical manipulation” Nature.424(6950),810-816(2003)
[6]S. Franke-Arnold, L. Allen, and M. Padgett, “Advances in optical angular momentum,” Laser Photon. Rev. 2. 299-315 (2008).
[7]Kohei Toyoda, Katsuhiko Miyamoto, Nobuyuki Aoki, Ryuji Morita, and Takashige Omatsu,’’Using optical vortex to control the chirality of twisted metal nanostructures,’’Nano Lett.12(7),3645-3649(2012)
[8]Hell, Stefan W., and Jan Wichmann. "Breaking the diffraction resolution limit by stimulated emission: stimulated-emission-depletion fluorescence
[9] N. R. Heckenberg, R. McDuff, C. P. Smith, and A. G. White,”Generation of optical phase singularities by computer-generated holograms”Opt.Lett.17(3),p. 221-223(1992).
[10] Matsumoto, Naoya, et al. “Generation of high-quality higher-order Laguerre-Gaussian beams using liquid-crystal-on-silicon spatial light modulators.” J.Opt.Soc.Am.A. 25(7)p. 1642-1651 (2008).
[11] M.W. Beijersbergen, R.P.C. Coerwinkel, M. Kristensen , j.p. Woerdman.” Helical-wavefront laser beams produced with a spiral phaseplate” Opt. Commun.112(5-6) 321-327(1994).
[12] Bejersbergen, M. W., Allen, L., van der Veen, H. E. L. O. & Woerdman, J. P. Astigmatic laser mode converters and transfer of orbital angular momentum. Opt. Commun. 96, 123-132 (1993).
[13] C. Tamm, “Frequency locking of 2 transverse optical modes of a laser,” Phys. Rev. A 38, 5960–5963 (1988).
[14] J. H. Poincare, Acta Math. 13, 1 (1890)
[15] Lorenz, E. N. Deterministic nonperiodic flow. J. Atmos. Sci, 20, 130-141(1963)
[16] D. R. Solli, C. Ropers, P. Koonath, and B. Jalali, "Optical rogue waves," Nature 450, 1054-1057 (2007).
[17]J. Durnin, J. J. Miceli, Jr and J. H. Eberly,’’Diffraction-free beams,’’ Phys. Rev. Lett.58(15),1499-1501(1987)
[18]S. Chavez-Cerda, G. H. C. New,’’Evolution of focused Hankel waves and Bessel beams,’’Opt. Common. 181,369-377(2000)
[19]Ming-Dar Wei ,Wen-Long Shiao,Yi-Tse Lin,’’Adjustable generation of bottle and hollow beams using an axicon,’’ Opt Commun. 248(1-3), 7-14 (2005)
[20]Miles Padgett, Johannes Courtial, and L. Allen, “Lights orbital angular momentum,”Phys.Today.57(5),p. 35-40(2004).
[21] M. J. Padgett, F. M. Miatto, M. P. Lavery, A. Zeilinger, and R. W. Boyd, "Divergence of an orbital-angular-momentum-carrying beam upon propagation," New Journal of Physics 17, 023011 (2015).
[22]Arecchi, F., Bonifacio, R, "Theory of optical maser amplifiers". IEEE Journal of Quantum Electronics. 1 (4), 169-178 (1965)
[23] C. Metayer, A. Serres, E. J. Rosero, W. A. Barbosa, F. M. de Aguiar, J. R. Leite, and J. R. Tredicce, "Extreme events in chaotic lasers with modulated parameter," Opt Express 22, 19850-19859 (2014).
[24] Chen C H, Tai P T and Hsieh W F Cavity-configuration-dependent instability in a tightly focused end-pumped solid-state laser Opt. Commun. 241,145–53(2004)
[25] M.-D. Wei, C.-H. Chen, H.-H. Wu, D.-Y. Huang, and C.-H. Chen, "Chaos suppression in the transverse mode degeneracy regime of a pump-modulated Nd: YVO4 laser," Journal of Optics A: Pure and Applied Optics 11, 045504 (2009).
[26] Yuan-Yao Lin , Chia-Chi Yeh, Hsien-Che Lee, Shang-Lin Yang, Jhih-He Tu , Chun-Po Tang," Optical vortex lasers by the coherent superposition of off-axis multiple-pass transverse modes in an azimuthal symmetry breaking laser resonator", Journal of Optics A: Pure and Applied Optics .20 075203 (2018)
論文全文使用權限
  • 同意授權校內瀏覽/列印電子全文服務,於2021-07-26起公開。
  • 同意授權校外瀏覽/列印電子全文服務,於2021-07-26起公開。


  • 如您有疑問,請聯絡圖書館
    聯絡電話:(06)2757575#65773
    聯絡E-mail:etds@email.ncku.edu.tw