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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] D. Y. Kim, S. K. Tripathy, Lian Li, and J. Kumar. Laser-induced holographicsurface relief gratings on nonlinear optical polymer films. Applied Physics Letters, 66(10):1166–1168, 1995. doi: 10.1063/1.113845. URL http://link.aip.org/link/?APL/66/1166/1.[3] Almeria Natansohn and Paul Rochon. Photoinduced motions in azo-containingpolymers. Chemical Reviews, 102(11):4139–4176, 10 2002. URL http://dx.doi.org/10.1021/cr970155y.[4] Kevin G. Yager and Christopher J. Barrett. Novel photo-switching usingazobenzene functional materials. Journal of Photochemistry and PhotobiologyA: Chemistry, 182(3):250 – 261, 2006. ISSN 1010-6030. doi: DOI:10.1016/j.jphotochem.2006.04.021. URL http://www.sciencedirect.com/science/article/B6TGY-4K18VSP-1/2/c00807901259cd303aba19c5442fe822. Proceedingsof 7th AIST International Symposium on Photoreaction Control and PhotofunctionalMaterials, 7th AIST International Symposium on Photoreaction Controland Photofunctional Materials.[5] Ke Yang, Suizhou Yang, Xiaogong Wang, and Jayant Kumar. Enhancing the inscriptionrate of surface relief gratings with an incoherent assisting light beam.Applied Physics Letters, 84(22):4517–4519, 2004. doi: 10.1063/1.1757643. URLhttp://link.aip.org/link/?APL/84/4517/1.[6] 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 2001.4
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Page 1 and 2: Thèse de doctorat de l’Ecole Pol
Page 3 and 4: AcknowledgementsAt the beginning it
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Page 7: ContentsAbstractiAcknowledgementsii
Page 10 and 11: List of Figures1.1 The trans/cis ph
Page 12 and 13: List of Figuresxiipastel-00527388,
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Page 18 and 19: Introduction 2In this work, we stud
Page 22 and 23: Introduction 6azobenzene-containing
Page 24 and 25: "##$%&'()')*#'+(%,-.(/#'011'2'"(%)(
Page 26 and 27: Chapter 1. The azobenzene molecules
Page 40 and 41: Chapter 2. Experimental setup and s
Page 66 and 67: 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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pmmaChapter 3. Microscopic mechanis
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Chapter 4. Photomechanical response
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sg+goldChapter 4. Photomechanical r
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P-250s-4VChapter 4. Photomechanical
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P-250s-4VChapter 4. Photomechanical
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Chapter 5Nanostructured hybrid syst
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Chapter 5. Nanostructured hybrid sy
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Bibliography[1] A. Natansohn, P. Ro
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Conclusionspastel-00527388, version
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Bibliography[1] Chi-Ming Che et Al.
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Appendix A 156⎛ ⎞ ⎛n g sinθ
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Appendix A 158hence for each compon
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Appendix BPhotoisomerization dynami
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Appendix B 162( 1Since λ 2 = −(
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Appendix C 164L = 5000 nmu = 1 nmL!
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Appendix D 166n. light power densit
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Bibliography[1] A. Natansohn, P. Ro
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Bibliography 170azobenzene-containi
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Bibliography 172as estimated from a
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Bibliography 174[53] C. Barrett, A.
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