可調變微機電光學回射器陣列之分析與製作

Keng-hsing Chao; 趙耿興

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/23305

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	蔡睿哲(Jui-che, Tsai)
dc.contributor.author	Keng-hsing Chao	en
dc.contributor.author	趙耿興	zh_TW
dc.date.accessioned	2021-06-08T04:58:58Z	-
dc.date.copyright	2010-08-20
dc.date.issued	2010
dc.date.submitted	2010-08-19
dc.identifier.citation	[1] L. Ling-Han, A. Higo, M. Kubota, M. Sugiyama, and Y. Nakano, 'A novel etching-oxidation fabrication method for 3D nano structures on silicon and its application to SOI symmetric waveguide and 3D taper spot size converter,' in Optical MEMs and Nanophotonics, 2008 IEEE/LEOS Internationall Conference on, 2008, pp. 27-28. [2] V. Milanovic and L. Wing Kin, 'Fast and high-precision 3D tracking and position measurement with MEMS micromirrors,' in Optical MEMs and Nanophotonics, 2008 IEEE/LEOS Internationall Conference on, 2008, pp. 72-73. [3] T. S. Chu, L. S. Huang, C. Y. Chang, C. S. Chang, W. F. Ye, M. H. Wen, and C. C. Yang, 'A new addressable corner micromirror array for free-space optical applications,' in Optical MEMs, 2002. Conference Digest. 2002 IEEE/LEOS International Conference on, 2002, pp. 45-46. [4] I. Glaser, S. Green, and I. Dimkov, 'Optical smart card using semipassive communication,' Optics Letters, vol. 31, pp. 712-714, Mar 15 2006. [5] M. Inami, N. Kawakami, and S. Tachi, 'Optical Camouflage Using Retro-Reflective Projection Technology,' in Proceedings of the 2nd IEEE/ACM International Symposium on Mixed and Augmented Reality, 2003, p. 348. [6] D. J. Hayes, 'CAT'S EYE RETRO-REFLECTOR ARRAY CODING DEVICE AND METHOD OF FABRICATION,' US 7,152,984 B1, Dec. 26, 2006. [7] [Online].Available: http://www.edmundoptics.com/onlinecatalog/displayproduct.cfm?productid=2088. [8] W. R. Cox, T. Chen, and D. J. Hayes, 'Micro-Optics Fabrication by Ink-Jet Printers,' Opt. Photon. News, vol. 12, pp. 32-35, 2001. [9] A. Lundvall, F. Nikolajeff, and T. Lindstrom, 'High performing micromachined retroreflector,' Optics Express, vol. 11, pp. 2459-2473, Oct 6 2003. [10] T. Dillon, A. Sure, J. Murakowski, and D. Prather, 'Continuous-tone grayscale mask fabrication using high-energy-beam-sensitive glass,' Journal of Microlithography Microfabrication and Microsystems, vol. 3, pp. 550-554, Oct 2004. [11] K. I. Jolic, M. K. Ghantasala, and E. C. Harvey, 'Excimer laser machining of corner cube structures,' Journal of Micromechanics and Microengineering, vol. 14, pp. 388-397, Mar 2004. [12] E. Brinksmeier, R. Gläbe, and C. Flucke, 'Manufacturing of molds for replication of micro cube corner retroreflectors,' Production Engineering, vol. 2, pp. 33-38, 2008. [13] C. S. Chang, T. S. Chu, L. S. Huang, C. Y. Chang, S. Y. Zeng, M. H. Wen, and Y. K. Yen, 'A novel addressable switching micro corner cube array for free-space optical applications,' in Micro Electro Mechanical Systems, 2003. MEMS-03 Kyoto. IEEE The Sixteenth Annual International Conference on, 2003, pp. 279-282. [14] M. K. Kilaru, B. Cumby, and J. Heikenfeld, 'Electrowetting retroreflectors: Scalable and wide-spectrum modulation between corner cube and scattering reflection,' Applied Physics Letters, vol. 94, pp. -, Jan 26 2009. [15] M. K. Kilaru, B. Cumby, and J. Heikenfeld, 'Electrowetting retroreflectors: Scalable and wide-spectrum modulation between corner cube and scattering reflection,' Applied Physics Letters, vol. 94, pp. 041108-041108-041103, 2009. [16] K.-h. Chao, C.-d. Liao, and J.-c. Tsai, 'Array of Cat's Eye Retro-Reflectors with Modulability for an Optical Identification System,' in Proc. of 2010 International Conference on Optical MEMS & Nanophotonics, 2010, pp. 7-8. [17] K. Aljasem, A. Seifert, and H. Zappe, 'Tunable multi-micro-lens system for high lateral resolution endoscopic optical coherence tomography,' in Optical MEMs and Nanophotonics, 2008 IEEE/LEOS Internationall Conference on, 2008, pp. 44-45. [18] E. Brinksmeier, R. Gla¨be, and C. Flucke, 'Manufacturing of molds for replication of micro cube corner retroreflectors,' Prod. Eng. Res., 2008. [19] A. Lundvall, F. Nikolajeff, and T. Lindstrom, 'High performing micromachined retroreflector,' Opt. Express, vol. 11, pp. 2459-2473, 2003. [20] B. P. Keyworth, D. J. Corazza, J. N. McMullin, and L. Mabbott, 'Single-step fabrication of refractive microlens arrays,' Appl. Opt., vol. 36, pp. 2198-2202, 1997. [21] Y. Ishii, S. Koike, Y. Arai, and Y. Ando, 'Ink-jet fabrication of polymer microlens for optical-I/O chip packaging,' Japanese Journal of Applied Physics Part 1-Regular Papers Short Notes & Review Papers, vol. 39, pp. 1490-1493, Mar 2000. [22] D. M. Hartmann, O. Kibar, and S. C. Esener, 'Characterization of a polymer microlens fabricated by use of the hydrophobic effect,' Optics Letters, vol. 25, pp. 975-977, Jul 1 2000. [23] Z. D. Popovic, R. A. Sprague, and G. A. N. Connell, 'Technique for monolithic fabrication of microlens arrays,' Appl. Opt., vol. 27, pp. 1281-1284, 1988. [24] [Online]. Available: http://www.smart-film.com.tw/.
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/23305	-
dc.description.abstract	近年來因為科技快速的發展，許多日常生活用品如身份識別證、貨幣…等，已逐漸改由電子產品的形式呈獻。像是現在人手一張的優遊卡、信用卡、提款卡或是住家大樓、公司行號的身份識別證。本篇論文利用光的準直、不易發散特性，來改善當前RFID (Radio frequency Identification)電磁波向四面八方傳播，資料易被竊取的缺點。而Corner cube retro-reflector以及貓眼回射器(Cat’s eyes retro-reflector)元件，則於光學辨識系統中扮演重要角色。進入回射器的光線，將依循原路徑回射至訊號發送源。藉此系統可辨別辨識物資料之真偽或電子貨幣交易。我們以Fred光學追跡軟體模擬回射器陣列的表現，找出理想的元件深、寬以及週期比。並模擬於實際製程所可容許的誤差範圍，以及可採用的調變機制。藉此找出合適的製程方法與調變模式。最後，我們採用光阻熱流法(photoresist thermal reflow)製作微透鏡及微反射面鏡，經過組裝後得到貓眼回射器陣列。並於其中加入調光薄膜(smart film)，藉由電壓控制調光薄膜的光穿透率，來達到動態圖形傳遞的功能。動態圖形之傳遞，除了與RFID同樣可於時間軸上做資訊加密之外，還多了空間上資訊加密之特性。因此此光學辨識系統(Optical identification system)，可大大提升資訊傳遞的安全性及隱密性。	zh_TW
dc.description.abstract	Because of the fast paced development of technology, many daily necessities such as currency and ID card have transformed into electrical products gradually. Examples of applications include product identification, in a supply chain, easycard, and making transactions with VISA payWave, etc. In this thesis, we utilize light, which is collimated and directional, to improve the RFID (radio frequency identification), whose radio frequency signal propagate isotropically, lest the information to be intercepted and eavesdropped. In this way, the corner cube retro-reflector and cat’s eyes retro-reflector play an important role in the optical identification system. The optical signal into the retro-reflector will be reflected along its incoming path to the original emitter. By this system, we can distinguish the items or to do the electronic transactions. The ray tracing software Fred was used to simulate the performance of the retro-reflector arrays and to find the optimized height, width and period. Also, we find out the tolerance of verticality of the vertical sidewall in fabrication process and the proper modulation mechanisms. Finally, we use photoresist thermal reflow method to fabricate the micro lens array and micro reflecting mirror. After the assembly with smart film, the switchable cat’s eye array is attained. By controlling the applied voltage, the transparency of smart film is changed. Hence, we can transmit the dynamic image and increase the security of the system.	en
dc.description.provenance	Made available in DSpace on 2021-06-08T04:58:58Z (GMT). No. of bitstreams: 1 ntu-99-R96941027-1.pdf: 2301701 bytes, checksum: 2dfd23aab276edb9effa7599324bdf73 (MD5) Previous issue date: 2010	en
dc.description.tableofcontents	口試委員會審定書 # 誌謝 i 中文摘要 ii ABSTRACT iii CONTENTS iv LIST OF FIGURES vi LIST OF TABLE ix Chapter 1 Introduction 1 1.1 Retro-reflector and their applications 1 1.1.1 Free-space optical communication 1 1.1.2 Optical identification system 3 1.1.3 Military、Sign、Camouflage、Sensor 5 1.2 Review of fabrication method of various retro-reflectors and Modulation mechanism 7 1.2.1 Cat’s eye retro-reflector 7 1.2.2 Continuous-tone grayscale mask fabrication 9 1.2.3 Excimer laser technology 10 1.2.4 Diamond micro chiseling 11 1.2.5 Bulk micromachining and assembling 12 1.2.6 Modulation mechanism of retro-reflector 12 Chapter 2 Simulation of retro-reflcetor 15 2.1 The principle of Corner Cube Retro-reflector (CCR) 15 2.2 The simulation of optical properties of vertical Corner Cube Retro-reflector array 17 2.2.1 Retro-reflection efficiency vs.Incident angle 18 2.2.2 The discussion of P/h ratio 19 2.2.3 The simulation of image transmission by removing the bottom mirrors 20 2.2.4 The simulation of image transmission by deforming the bottom mirrors 21 2.2.5 The effect of obliquity of the vertical sidewall for vertical CCR array 23 2.3 Cat’s eyes retro-reflector 25 2.3.1 The design concept of the simple cat’s eye retro- reflector 25 2.3.2 The simulation of the cat’s eyes and cat’s eyes array 26 Chapter 3 Fabrication and Experiment 31 3.1 Thermal reflow process and tunable Cat’s eyes retro-relfector 31 3.2 Experiment 34 Chapter 4 Conclusion 39 REFERENCE 40
dc.language.iso	en
dc.subject	貓眼回射器	zh_TW
dc.subject	可調變回射器	zh_TW
dc.subject	光學辨識器統	zh_TW
dc.subject	Retro-reflector	en
dc.subject	optical ID	en
dc.title	可調變微機電光學回射器陣列之分析與製作	zh_TW
dc.title	The analysis and fabrication of switchable MEMS optical retro-reflector arrays	en
dc.type	Thesis
dc.date.schoolyear	98-2
dc.description.degree	碩士
dc.contributor.oralexamcommittee	孫家偉,呂志偉
dc.subject.keyword	可調變回射器,光學辨識器統,貓眼回射器,	zh_TW
dc.subject.keyword	Retro-reflector,optical ID,	en
dc.relation.page	42
dc.rights.note	未授權
dc.date.accepted	2010-08-19
dc.contributor.author-college	電機資訊學院	zh_TW
dc.contributor.author-dept	光電工程學研究所	zh_TW
顯示於系所單位：	光電工程學研究所

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