利用近場相位移微影術及干涉微影術製作二維光子晶體波導

Cai-Xia Yan; 晏彩霞

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/30095

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	王倫(Lon A. Wang)
dc.contributor.author	Cai-Xia Yan	en
dc.contributor.author	晏彩霞	zh_TW
dc.date.accessioned	2021-06-13T01:35:49Z	-
dc.date.available	2009-07-20
dc.date.copyright	2007-07-20
dc.date.issued	2007
dc.date.submitted	2007-07-16
dc.identifier.citation	References 1. John A. Rogers, K.E.P., Rebecca J. Jackman, and George M. Whitesides, Using an elastomeric phase mask for sub-100 nm photolithography in the optical near field. Applied Physics Letters, 1997, Vol. 70, No. 20. 2. Shawn-Yu Lin, Edmund Chow, Vince Hietala, Pierre R. Villeneuve, J. D. Joannopoulos, Experimental of Electromagnetic Waves in a Photonic Crystal Bending. Science, 1998. Vol. 282. 3. Edmond Chow, S.Y. Lin, S.G. Johnson, P.R. Villeneuve, J.D. Joannopoulos, J.R.Wendt, G.A. Vawter, W. Zhbrzycki, H.Hou and A. A. Allerman. Three-dimensional control of light in a two-dimensional photonic crystal slab. Nature, 2000, Vol. 407, No. 6807, pp. 983-986. 4. Ngoc Diep Lai, W.P.L., Jian Hung Lin, and Chia Chen Hsu, Rapid fabrication of large-area periodic structures containing well-defined defects by combining holography and mask techniques. Optics Express, 2005, Vol. 13, No. 14. 5. Chi-O CHO, Y.-G.R., Yeonsang PARK, Heonsu JEON, Beom-Seok LEE, and H.-W.K.a.Y.-H. CHOE, Photonic Crystal Slab Waveguides Fabricated by the Combination of Holography. Japanese Journal of Applied Physics, 2004, Vol. 43, No. 4A. 6. Maria, J., S. Jeon, and J.A. Rogers, Nanopatterning with conformable phase masks. Journal of Photochemistry and Photobiology A: Chemistry, 2004. Vol, 166, No. 1-3, pp. 149-154. 7. Garrett J. Schneider, Janusz Murakowski, Sriram Venkataraman, and Dennis W. Prather, Combination lithography for photonic-crystal circuits. Journal of Vacuum Science & Technology B: Microelectronics and Nanometer Structures, 2004, Vol. 22, No.1, pp. 146-151. 8. de Ridder, R.M.; Bostan, C.G.; van Wolferen, H.A.G.M.; van Dorssen, I.; Vogelaar, L.; Segerink, F.B.; Kuipers, L.; van Hulst, N.F., Fabrication of photonic crystal slabs and defects using laser interference lithography and focused ion beam-assisted deposition. Transparent Optical Networks, 2002, Vol. 2, pp. 14-19. 9. W. Bogaerts, P. Dumon, D. Taillaert, V. Wiaux, S. Beckx, B. Luyssaert, J. Van Campenhout, D. Van Thourhout, R. Baets, SOI nanophotonic waveguide structures fabricated with deep UV lithography. Photonics and Nanostructures, Photonics and Nanostructures, 2004, pp. 81-86. 10. Wim Bogaerts, V.W., Dirk Taillaert,Stephan Beckx,Bert Luyssaert, Fabrication of Photonic Crystals in Silicon-on-Insulator Using 248-nm Deep UV Lithography. IEEE Journal of Selected Topics in Quantum Electronics, 2002, Vol. 8, No. 4. 11. W. Bogaerts, V. Wiaux, P. Dumon, D. Taillaert, J. Wouters, S. Beckx, J. Van Campenhout, Bert Luyssaert, Dries Van Thourhout, R. Baets, Large-scale production techniques for photonic nanostructures. Proceedings of the SPIE, 2003, Vol. 5225, pp. 101-112. 12. C. Moormann, A.J.B., A H. Kurz, Spatial phase-locked combination lithography for photonic crystal devices. Microelectronic Engineering, 2004, Vol. 73-74, No. 1, pp. 417-422. 13. Tao Liu, M.F., Jerome V. Moloney, and Masud Mansuripur, Fabrication of 2D PCs with embedded defects using blue-laser-writer. IEEE Photonics Technology Letters, 2006, Vol. 18, No. 9. 14. Lin Pang, W.N., and Yeshaiahu Fainman, Fabrication of Two-Dimensional Photonic Crystals with Controlled Defects by Use of Multiple Exposures and Direct Write. Applied Optics, 2003, Vol. 42, No. 27. 15. Hai, D., T. Jackie Lim-Piu, and W.H. Mark, Sub-150 nm, high-aspect-ratio features using near-field phase-shifting contact lithography. Journal of Vacuum Science & Technology B: Microelectronics and Nanometer Structures, 2003, Vol. 21, No.3, pp. 1143-1148. 16. John A. Rogers, Kateri E. Paul, Rebecca J. Jackman, and George M. Whitesides, Generating ~ 90 nanometer features using near-field contact-mode photolithography with an elastomeric phase mask. Journal of Vacuum Science & Technology B: Microelectronics and Nanometer Structures, 1998, Vol. 16, No. 1, pp. 59-68. 17. Kunz, R.R., M. Rothschild, and M.S. Yeung, Large-area patterning of ~ 50 nm structures on flexible substrates using near-field 193 nm radiation. Journal of Vacuum Science & Technology B: Microelectronics and Nanometer Structures, 2003, Vol. 21, No. 1, pp. 78-81. 18. Zhi-Yuan, L., Y. Yadong, and X. Younan, Optimization of elastomeric phase masks for near-field photolithography. Applied Physics Letters, 2001, Vol. 78, No. 17, pp. 2431-2433. 19. Hesjedal, T.S., W.Kostial, H. Near-field phase shift photolithography for high-frequency SAW transducers, IEEE Ultrasonics Symposium, 2002. 20. 鄭惟中, 利用浸溼干涉微影製作相位光罩與光學微影術中底部抗反射層研究. 臺灣大學光電工程學研究所博士論文, 2004. 21. Steven G. Johnson, Shanhui Fan, Pierre R. Villeneuve, and J. D. Joannopoulos, Guided modes in photonic crystal slabs. Physical Review B, 1999, Vol. 60, No.8, p. 5751.
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/30095	-
dc.description.abstract	本論文將探討如何結合近場相位偏移微影及干涉微影兩種技術製作出二維週期性結構的光子晶體波導。我們將具有特定圖案及厚度的光阻，以PDMS (聚二甲基矽氧烷) 材料翻製成軟性光罩，再將此成型之PDMS光罩貼附在塗佈光阻的基板上，同時以汞燈光源作近場相位偏移曝光製作二維光子晶體的缺陷波導，再將光阻之圖案轉移到鉻金屬層，利用此技術最小可製作出約100奈米的線寬。另外在已有鉻金屬線的基板上塗佈光阻，並利用波長351奈米的氬離子雷射以干涉微影技術，將基板旋轉90度作二次曝光，製作出二維週期性結構的光阻圖案。鍍上鉻金屬後用金屬剝離的方式把光阻圖案轉移到鉻金屬層。我們選擇絕緣層上覆矽(Silicon on insulator， SOI)為波導材料，以鉻金屬為乾蝕刻擋罩，SOI最上層的非晶矽蝕刻後即可得到二維光子晶體波導。結合以上兩種技術，可快速製作出大面積的二維光子晶體波導，相較於電子束直寫法可節省成本、時間，並解決雷射直寫法及傳統微影術的線寬極限。	zh_TW
dc.description.abstract	This thesis describes an approach to fabricate a 2-dimensioinal photonic crystal waveguide by combining near-field phase-shifting contact lithography and interference lithography. The elastomeric phase mask is fabricated by casting and curing the prepolymer of PDMS (Polydimethylsiloxane) against photolithographically patterned lines of photoresist on a silicon substrate. We then expose the UV light through the elastomeric phase mask onto the photoresist to perform photolithography in the near field of the mask for fabricating the 2-dimensional photonic crystal waveguides. These waveguiding patterns are transferred to the underlying chromium layer by chemical wet etching. Critical dimensions as small as 100 nm can be fabricated by this method[1]. Then photoresist is spun onto the substrate which contains the chromium lines and exposed to 351 nm wavelength of argon ion laser to perform the interference lithography. Square or triangular lattice of 2D photoresist patterns can be achieved by simply rotating the substrate to specific angle to perform multiple exposures. These photoresist patterns are transferred to the deposited chromium layer by liftoff process. Silicon on insulator (SOI) is chosen to be waveguiding material because its index contrast is high enough to support a guided Bloch mode in photonic crystal waveguides. The desired patterns were transferred to a-Si (the top layer of SOI) by dry etching. Combining the above two methods, 2-dimensional photonic crystal waveguide can be fabricated rapidly. When compared with the high cost and slow e-beam writing technique, the above two methods are economically and technically advantaged. It also overcomes the diffraction limit of conventional mask photolithography and line width limited issue of direct laser beam writing technique.	en
dc.description.provenance	Made available in DSpace on 2021-06-13T01:35:49Z (GMT). No. of bitstreams: 1 ntu-96-R94941020-1.pdf: 10956478 bytes, checksum: 6839653cc40930b5e69c5ae45e8e4477 (MD5) Previous issue date: 2007	en
dc.description.tableofcontents	Contents Abstract (Chinese).....................................................................Ⅰ Abstract (English).....................................................................Ⅱ Contents.....................................................................................Ⅳ List of Acronyms.......................................................................Ⅵ Chapter 1 Introduction and motivation 1 1-1 Characteristic of photonic crystal slab waveguides...........1 1-2 Prior fabrication method of photonic crystal slab waveguides.....1 Chapter 2 Near-Field Phase-Shifting Contact Lithography 5 2-1 Introduction...........................................................................................5 2-2-1 Theoretical Analysis................................................................... 6 2-2-2 Simulation by using BPM and FDTD method........................... 9 2-3 Fabrication of Phase-shifting mask and patterning process............... 13 2-3-1 Experiment of Near-Field Phase-Shifting Contact Lithography................................................................................................16 2-3-2 Result and discussion................................................................22 Chapter 3 Fabrication of 2D Photonic Crystals by Two-Beam Interference Lithography 24 3-1 Introduction........................................................................................ 24 3-2 Fabrication of 2D photonic crystals on silicon................................... 24 3-2-1 Experiment set up and fabrication process.............................. 24 3-2-2 Result and discussion............................................................... 35 3-3 Simulation band structures for photonic crystal slab by using RSoft software......................................................................................................35 Chapter 4 Combination of NFPSCL and IL 40 4-1 Introduction....................................................................................... 40 4-2 Fabrication of photonic crystal slab waveguides on SOI.................. 40 4-2-1 Define line defects first and followed by 2D PCs................... 43 4-2-2 Define 2D PC patterns and then develop line defects.............. 51 4-2-3 Alignment of line defects with periodic 2D PC patterns.......... 54 4-3 Measurement and discussions........................................................... 56 4-4 Nano-Imprint Lithography (NIL)........................................................64 Chapter 5 Conclusion and future work 67 References 70
dc.language.iso	en
dc.subject	干涉微影術	zh_TW
dc.subject	二維光子晶體	zh_TW
dc.subject	光子晶體波導	zh_TW
dc.subject	近場相位移微影術	zh_TW
dc.subject	2D photonic crystals	en
dc.subject	interference lithography	en
dc.subject	near-field phase-shifting contact lithography	en
dc.subject	photonic crystal waveguide	en
dc.title	利用近場相位移微影術及干涉微影術製作二維光子晶體波導	zh_TW
dc.title	Fabrication of 2D Photonic Crystal Slab Waveguides using Near-Field Phase-Shifting Contact Lithography and Interference Lithography	en
dc.type	Thesis
dc.date.schoolyear	95-2
dc.description.degree	碩士
dc.contributor.oralexamcommittee	#VALUE!
dc.subject.keyword	二維光子晶體,光子晶體波導,近場相位移微影術,干涉微影術,	zh_TW
dc.subject.keyword	2D photonic crystals,photonic crystal waveguide,near-field phase-shifting contact lithography,interference lithography,	en
dc.relation.page	72
dc.rights.note	有償授權
dc.date.accepted	2007-07-16
dc.contributor.author-college	電機資訊學院	zh_TW
dc.contributor.author-dept	電機工程學研究所	zh_TW
顯示於系所單位：	電機工程學系

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