跳到主要內容

簡易檢索 / 詳目顯示

回結果列表
研究生: 江信東
Hsin-Tung Chiang
論文名稱: S型彎曲波導與微米小球共振腔之光耦合效率研究
指導教授: 戴朝義
Chao-Yi Tai
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: 95
語文別: 中文
論文頁數: 58
中文關鍵詞: S型彎曲波導彎曲損失光束傳播法微米小球保角轉換
外文關鍵詞: microsphere, conformal transformation, WGMs, bending loss, BPM, Bending waveguide
相關次數: 點閱:18下載:0
分享至:
查詢本校圖書館目錄 查詢臺灣博碩士論文知識加值系統 勘誤回報

    • 本論文提出一種新的共振器耦合器結構,主要利用S型彎曲波導所造成的彎曲損失將能量耦合進入微米小球共振腔,此結構可積體化構裝於Si晶片上具有較佳的機械強度等優點。
    在實驗模擬上我們得到與微米小球的耦合效率最高可達35%以上,而實驗的量測上,S型彎曲波導在彎曲半徑為1500微米且彎曲角度為41度時的彎曲損失約為13dB/cm,而在角度為40度時彎曲損失開始明顯上升的趨勢,與利用光束傳播法模擬所得之結果吻合。

    We have designed and fabricated an S-bend waveguide structure which enables one to excite the Whispering Gallery Modes (WGMs) in microspheres. The highest coupling efficiency found is estimated to be about 35%, and the designed structure has high position and wavelength tolerance. By misplacing the microsphere by 15um only results in 6% coupling efficiency degradation; while 10nm wavelength drift results in 3dB/cm coupling efficiency degradation.
    Preliminary experimental result shows that the design is in close agreement with the simulation using beam propagation method (BPM). II

    第一章 導論 1.1 前言 ‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧1 1.2 微米小球共振腔耦合器簡介 ‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧2 1.3 研究動機與目標 ‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧5 第二章 原理 2.1 彎曲波導 ‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧8 2.2 波導彎曲損失分析 ‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧13 2.3 球型共振腔模態分析 ‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧17 2.4 光束傳播法(Beam Propagation Method) ‧‧‧‧‧‧‧‧‧22 第三章 元件設計架構與模擬結果分析 3.1 元件設計架構 ‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧27 3.2 模擬與分析 ‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧30 第四章 元件製作、量測與結果分析 4.1 製作流程 ‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧38 4.2 波導損失量測與結果分析 ‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧43 第五章 結論與未來努力方向 ‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧50 參考文獻 ‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧52 附錄一 ‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧57 著作列表 ‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧58

    [1] B.E. Little, J.-P. Laine, D. R. Lim, and H. A. Haus,
    “ Pedestal antiresonant reflecting waveguides for robust coupling to microsphere resonators and for microphotonic circuits” OPTICS LETTERS, Vol.25, No.1,pp.73,January 2000
    [2] M. L.Gorodetsky and V.S.Ilchenko“ Optical microsphere resonators: optimal coupling to high-Q whispering-gallery modes”J.Opt.Soc.Am.B ,Vol.16,No.1/January 1999
    [3] J. C. Knight, G. Cheung, F. Jacques, and T. A. Birks“Phase-matched excitation of whispering-gallery-mode
    resonances by a fiber taper” Optics Letters, Vol. 22, Issue 15, pp. 1129-1131 ,August 1997
    [4] Vladimir S. Ilchenko, X. Steve Yao,and Lute Maleki,
    “Pigtailing the high-Q microsphere cavity: a simple fiber
    coupler for optical whispering-gallery modes”Optics Letters,Vol.24,No.11,pp.723, June 1999
    [5] N. Dubreuil , J.C. Knight , D. K. Leventhal , V.Sandoghdar , J. Hare , and V. Lefevre, “Eroded monomode optical fiber for whispering-gallery mode excitation in fused-silica microspheres”OPTICS LETTERS, Vol.20,No.8,pp.813,April 1995
    [6] M.L.Gorodetsky,A.A.Savchenkov,and V.S.Ilchenko“Ultimate Q of optical microsphere resonators”,Optics Letters,Vol.21,No.7,1996
    [7] Ming Cai,Guido Hunziker,and Kerry Vahala,Member,IEEE“Fiber-Optic Add–Drop Device Based on a Silica
    Microsphere-Whispering Gallery Mode System”IEEE photonics technology letters,Vol.11,No.6,1999
    [8] M.Haraguchi,M.Fukui,Y.Tamaki,T.Okamoto“Optical switching due to whispering gallery modes in dielectric
    microspheres coated by a Kerr material”Journal of Microscopy,Vol.210,Pt 3 June 2003,pp.229-233
    [9] Yigit O. Yilmaz, Student Member, IEEE, Abdullah Demir, Student Member, IEEE, Adnan Kurt, Member, IEEE,and Ali Serpengüzel, Senior Member, IEEE“Optical Channel Dropping With a Silicon Microsphere” IEEE PHOTONICS TECHNOLOGY LETTERS, VOL. 17, NO. 8, AUGUST 2005
    [10] Meint K. Smit, Erik C. M. Pennings, Member, ZEEE, and Hans Blok“A Normalized Approach to the Design of Low-Loss Optical Waveguide Bends”JOURNAL OF LIGHTWAVE TECHNOLOGY, VOL. 11, NO. 11, NOVEMBER 1993
    [11] Mordehai Heiblum and Jay H.Harris,“Analysis of Curved Optical Waveguides by Conformal Transformation”IEEE JOURNAL OF QUANTUM ELECTRONICS,VOL.QE-11, NO.2, pp.75,FEBRUARY 1975
    [12] Robert G.Hunsperger“Integrated Optics:Theory and Technology”,pp.102-103,Springer,2002.
    [13] Vijaya Subramaniam, Gregory N.De Brabander,David H.Naghski and Joseph T.Boyd, ”Measurement of Mode Field Profiles and Bending and Transition Losses in curved Optical Channel Waveguides,” Jounal of lightwav.
    [14] http://web2.ctsh.hcc.edu.tw/~s9311104/u4.html
    [15] A.N.Oraevsky “whispering-gallery waves”Quantum Electronics,Vol.32,No.5,pp.377 2002
    [16] Brent E. Little, Member, IEEE, J.-P. Laine, and Hermann A. Haus,“Analytic Theory of Coupling from Tapered Fibers
    and Half-Blocks into Microsphere Resonators”,JOURNAL OF LIGHTWAVE TECHNOLOGY,VOL.17,NO.4,APRIL 1999
    [17] http://metrology.hut.fi/courses/s108-j/ Nano2.pdf.
    [18] Orazio Svelto, Principles of Lasers, 3rd, Plenum Publish,
    New York (1989), p161
    [19] M.Cai,O.Painter,and K.J.Vahala“Fiber-coupled microsphere laser”,Optics Letters, Vol.25,No.19, pp.1430,2000
    [20] RSoft Design Group, Inc,“User Menu”.
    [21] K. Kawano, T. Kiton,“Introduction to Optical Waveguide
    Analysis: Solving Maxwell’s Equations and the Schrodinger Equation”, WILEY, 2001.
    [22] Duke Scientific corporation,“User Menu”.
    [23] C. Y. Tai, B. Unal, J. S. Wilkinson, M. A. Ghanem, and P.
    N. Bartlett“Optical coupling between a self-assembled microsphere grating and a rib waveguide”,Appl. Phys. Lett., 2004, Vol. 84, pp. 3513-3515
    [24] Robert G.Hunsperger“Integrated Optics:Theory and Technology”,pp.114-119,Springer,2002.
    [25] http://metrology.hut.fi/courses/s108-j/ Nano3.pdf.

    QR CODE
    :::