DÃ©formation photoinduite dans les films minces contenant des ...

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Bibliography[1] A. Natansohn, P. Rochon, M. S. Ho, and C. Barret. Azo polymers for reversibleoptical storage .6. poly[4-[2-(methacryloyloxy)ethyl]azobenzene]. Macromolecules,28(12):4179–4183, June 1995.pastel-00527388, version 1 - 19 Oct 2010[2] N. Landraud, J. Peretti, F. Chaput, G. Lampel, J. P. Boilot, K. Lahlil, and V. I.Safarov. Near-field optical patterning on azo-hybrid sol-gel films. Applied PhysicsLetters, 79(27):4562–4564, December 2001.[3] S. Orlic, S. Ulm, and H. J. Eichler. 3d bit-oriented optical storage in photopolymers.Journal Of Optics A-Pure And Applied Optics, 3(1):72–81, January 2001.[4] O.N. Oliveira et Al. Optical storage and surface-relief gratings in azobenzenecontainingnanostructured films. Advances in colloidal interface science, 116:179–192, 2005.[5] Y. L. Yu, M. Nakano, and T. Ikeda. Directed bending of a polymer film by light -miniaturizing a simple photomechanical system could expand its range of applications.Nature, 425(6954):145–145, September 2003.[6] T. Ikeda, M. Nakano, Y. L. Yu, O. Tsutsumi, and A. Kanazawa. Anisotropic bendingand unbending behavior of azobenzene liquid-crystalline gels by light exposure.Advanced Materials, 15(3):201, February 2003.[7] N. Tabiryan, S. Serak, X. M. Dai, and T. Bunning. Polymer film with opticallycontrolled form and actuation. Optics Express, 13(19):7442–7448, September 2005.[8] T. J. White, N. V. Tabiryan, S. V. Serak, U. A. Hrozhyk, V. P. Tondiglia, H. Koerner,R. A. Vaia, and T. J. Bunning. A high frequency photodriven polymeroscillator. Soft Matter, 4(9):1796–1798, 2008.[9] C. Cocoyer, L. Rocha, L. Sicot, B. Geffroy, R. de Bettignies, C. Sentein, C. Fiorini-Debuisschert, and P. Raimond. Implementation of submicrometric periodic surfacestructures toward improvement of organic-solar-cell performances. Applied PhysicsLetters, 88(13):133108, 2006. doi: 10.1063/1.2188600. URL http://link.aip.org/link/?APL/88/133108/1.150
Chapter 5. Nanostructured hybrid systems 151[10] Leonid M. Goldenberg, Yuri Gritsai, Olga Kulikovska, and Joachim Stumpe.Three-dimensional planarized diffraction structures based on surface relief gratingsin azobenzene materials. Opt. Lett., 33(12):1309–1311, 2008. URL http://ol.osa.org/abstract.cfm?URI=ol-33-12-1309.[11] J. Hillier J. Turkevich, P. C. Stevenson. A study of the nucleation and growthprocesses in the synthesis of colloidal gold. Discussions of the Faraday Society, 11:55, 1951.[12] Bharat Bhushan. Springer Handbook of Nano-technology. Springer, 2004.[13] Syed Rizvi. Handbook of photomask manufacturing technology. Taylor & Francis,2003.pastel-00527388, version 1 - 19 Oct 2010[14] X. L. Jiang, L. Li, J. Kumar, D. Y. Kim, and S. K. Tripathy. Unusual polarizationdependent optical erasure of surface relief gratings on azobenzene polymer films.Applied Physics Letters, 72(20):2502–2504, May 1998.
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Thèse de doctorat de l’Ecole Pol
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AcknowledgementsAt the beginning it
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vpastel-00527388, version 1 - 19 Oc
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ContentsAbstractiAcknowledgementsii
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List of Figures1.1 The trans/cis ph
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List of Figuresxiipastel-00527388,
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pastel-00527388, version 1 - 19 Oct
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Introduction 2In this work, we stud
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Bibliography[1] A. Natansohn, P. Ro
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Introduction 6azobenzene-containing
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"##$%&'()')*#'+(%,-.(/#'011'2'"(%)(
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Chapter 1. The azobenzene molecules
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Chapter 2. Experimental setup and s
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pmma-dr1Chapter 2. Experimental set
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Chapter 3pastel-00527388, version 1
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Chapter 3. Microscopic mechanisms a
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dose (mJ!mm )(a)dose (mJ!mm )(b)dos
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TOPOGRAPHYgratamplxxphotoexpansion
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Page 116 and 117: Chapter 3. Microscopic mechanisms a
Page 120 and 121: pmmaChapter 3. Microscopic mechanis
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Page 134 and 135: sg+goldChapter 4. Photomechanical r
Page 140 and 141: P-250s-4VChapter 4. Photomechanical
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Page 152 and 153: Chapter 5Nanostructured hybrid syst
Page 154 and 155: Chapter 5. Nanostructured hybrid sy
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Page 170 and 171: Bibliography[1] Chi-Ming Che et Al.
Page 172 and 173: Appendix A 156⎛ ⎞ ⎛n g sinθ
Page 174 and 175: Appendix A 158hence for each compon
Page 176 and 177: Appendix BPhotoisomerization dynami
Page 178 and 179: Appendix B 162( 1Since λ 2 = −(
Page 180 and 181: Appendix C 164L = 5000 nmu = 1 nmL!
Page 182 and 183: Appendix D 166n. light power densit
Page 184 and 185: Bibliography[1] A. Natansohn, P. Ro
Page 186 and 187: Bibliography 170azobenzene-containi
Page 188 and 189: Bibliography 172as estimated from a
Page 190 and 191: Bibliography 174[53] C. Barrett, A.
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