Please use this identifier to cite or link to this item: http://hdl.handle.net/11455/2268
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dc.contributor邱一zh_TW
dc.contributorYi Chiuen_US
dc.contributor鄭泗東zh_TW
dc.contributor戴慶良zh_TW
dc.contributorStone Chengen_US
dc.contributorChing-Liang Daien_US
dc.contributor.advisor施錫富zh_TW
dc.contributor.advisorHsi-Fu Shihen_US
dc.contributor.author呂竣鑫zh_TW
dc.contributor.authorLu, Chun-Shinen_US
dc.contributor.other中興大學zh_TW
dc.date2010zh_TW
dc.date.accessioned2014-06-05T11:42:51Z-
dc.date.available2014-06-05T11:42:51Z-
dc.identifierU0005-1708200915132900zh_TW
dc.identifier.citation[1] 施錫富,工業材料月刊,159,133 (2000) [2] W.H.Lee, “Diffractive optics for data storage ,”Proc. SPIE, 2383 , p.390-395 (1995) [3] S.Sinzinger, “Microoptics” , Wiley-VCH, p.208-210 (2003) [4] T.Shiono and H.Ogawa , “Planar-optic-disk pickup with diffractive micro -optics” , Appl.Opt , 33(33), p.7350 , (1994) [5] L.Y.Lin, et al. “Realization of novel monolithic free-space optical disk pickup heads by surface micromachining,” Opt.Lett.,21, p.155-157 (1996) [6] J.Y.Chang, et al. “Realization of free-space optical pickup head with stacked si-based phase elements,” IEEE Pho.Tech.Lett.,17, p.214 (2005) [7] B.W.Bell.Jr., “Dataplay’s mobile recording technology,” in Tech. Dig. Optical Data Storage , p.4-6 (2001) [8] S.Yoshida , “Mini disc optical pickup integrated with a birefringence wedge and a holographic optical element,” Jpn. J. Appl. Phys.,1(3B), p.1808-1812 (2002) [9] S.M.Kang , “Development of integrated small-form-factor optical pickup with blu-ray disc specification”, Jpn. J. Appl. Phys.,45(8B) , p.6723-6729 (2006) [10] H.F.Shih, et al. “Design of optical head with holographic optical element for small form factor drive systems,” IEEE Trans.on Mag.,41(2), p.1058-1060 (2005) [11] “光機電系統整合概論” , 國家實驗研究室儀科科技中心出版 , (2005) [12] Mark O.Freeman, et al “Robust focus and tracking detection for holographic digital versatile disc optical pickup-head odules” , Jpn. J. Appl. Phys , 38 , p.1755-1760 (1999) [13] 金國藩 等著, “二元光學” ,國防工業出版社 (1998) [14] E.Hercht, “Optics” Fourth Edition, Pearson Education (2002) [15] H.F.Shih “ Optical head with two wavelength in single path using holographic optical element”, Jpn.J.Appl.Phys ,44 (4) , p.1797-1802 (2005) [16] H.F.Shih, et al “ Optical head design using prism-type holographic optical element for small form factor applications” , Proc. SPIE , 6287 (2007) [17] H.F.Shih, et al. “Micro object lens with NA 0.65 for blue-light small-form -factor optical pickup head ” ,Optical express, 16(17) (2008) [18] 李金萍, “繞射極化元件在高密度光學讀寫頭之應用研究”,38-45 , (2000) [19] 莊達仁, “VLSI 製造技術” ,(2002)zh_TW
dc.identifier.urihttp://hdl.handle.net/11455/2268-
dc.description.abstract在本研究中,提出一個利用稜鏡式全像光學元件(prism-type holographic optical element,PT-HOE)的光學架構來縮簡光路系統,並且減少光學元件的數目以用於微型光學讀寫頭(small form factor optical pickup head,SFFOPH)中。其稜鏡式全像元件有繞射、反射、修正像差及提供聚焦誤差訊號四個功能,將代替許多光學元件以縮減系統架構。此微型光學讀寫頭設計包含稜鏡式全像元件、45°反射微稜鏡、數值孔徑(NA)為0.65之物鏡及波長405nm之藍光雷射,可應用於藍光高密度光儲存系統中。 光學元件製作方面,以二元光學(binary optics)的方法近似全像光學元件之多項式係數並以半導體製程實現其繞射圖形,並以特定之切割製程完成其稜鏡之外型。在本研究中亦加入公差分析來分析出最可能造成系統誤差的元件,完成光學系統中所需之元件之後,實際組裝完成其光學讀取頭系統架構及以虛像法觀測光斑像散變化,並確定光點位置及變化在線性區內。zh_TW
dc.description.abstractIn this study, we present an optical configuration of a prism-type holographic optical element (PT-HOE) that can simplify the optical system and reduce the number of optical components for the use of a small-form factor optical pickup head (SFFOPH). The functions of the PT-HOE include diffraction, reflection, aberration correction, and servo-signal generation, which may replace many other optical elements and thereby simplify the system configuration. There are a PT-HOE, a 45 micro-prism, an objective lens with the numerical aperture (NA) of 0.65, and a blue laser with the wavelength of 405 nm in the proposed SFFOPH design. It can be applied to high-density blue-light optical storage systems. For the fabrication of optical components, we approximated the polynomial coefficient of the PT-HOE by binary optics and obtained its diffraction pattern using semiconductor manufacturing processes. The prism shape of the PT-HOE was fabricated by specific dicing methods. Tolerance analysis was also used to analyze possible causes of systematic errors. When all necessary components of the system were prepared, we completed the construction of the SFFOPH design and observed the astigmatic light beams by the virtual image method. The location and astigmatic change of light beams were confirmed to be within the linear region.en_US
dc.description.tableofcontents摘要 I Abstract II 致謝 III 目錄 IV 圖目錄 VI 第一章 緒論 1 1-1 背景與研究目的 1 1-2 文獻探討 2 1-3 論文架構 6 第二章 相關理論介紹 7 2-1 光學讀取頭原理 7 2-1-1 光學讀取頭系統 7 2-1-2 聚焦偵測技術 8 2-1-3 循軌偵測技術 12 2-2 光柵繞射理論 14 2-2-1 繞射理論簡介 14 2-2-2 光柵分類 17 2-2-3 廣義光柵公式 19 2-2-4 二階相位光柵繞射效率 20 第三章 系統設計與模擬 23 3-1 系統簡介 23 3-2 光學系統的建立 24 3-3 全像光學元件之轉換 29 3-4 模擬架構公差分析 32 第四章 元件製備與系統組裝 35 4-1 稜鏡式全像元件之製作 35 4-1-1 黃光微影製程 35 4-1-2 微稜鏡之切割製程 37 4-2 基板之製作 40 4-3 雷射之拆取 43 4-4 組裝過程 45 第五章 結論與未來展望 49 5-1 結論 52 參考文獻 53 中英對照表 55 作者簡歷 58zh_TW
dc.language.isoen_USzh_TW
dc.publisher機械工程學系所zh_TW
dc.relation.urihttp://www.airitilibrary.com/Publication/alDetailedMesh1?DocID=U0005-1708200915132900en_US
dc.subjectprism-type holographic optical elementen_US
dc.subject稜鏡式全像光學元件zh_TW
dc.subjectsmall-form factor optical pickup headen_US
dc.subjectbinary opticsen_US
dc.subject微型光學讀寫頭zh_TW
dc.subject二元光學zh_TW
dc.title利用稜鏡型全像光學元件之微型光學讀寫頭設計zh_TW
dc.titleSmall-Form-Factor Optical Pickup Head Design Using Prism-Type Holographic Optical Elementen_US
dc.typeThesis and Dissertationzh_TW
item.grantfulltextnone-
item.openairetypeThesis and Dissertation-
item.cerifentitytypePublications-
item.languageiso639-1en_US-
item.fulltextno fulltext-
item.openairecristypehttp://purl.org/coar/resource_type/c_18cf-
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