Couches minces d'oxyde d'Ã©tain: la localisation faible et les effets de ...

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RÉFÉRENCESTanatar, B. & Ceperley, D.M. (1989). Ground state of the two-dimensional electron gas.Physical Review B, 39, 5005–5016. 5, 73Thompson, R.S. (1970). Microwave, Flux Flow, and Fluctuation Resistance of Dirty Type-IISuperconductors. Physical Review B, 1, 327–333. 87Tosi, M.P. (2000). “Many-body effects in jellium”, chap. 1, 1–46. World Scientific PublishingCompany. 16Trani, F., Causà, M., Ninno, D., Cantele, G. & Barone, V. (2008). Density functionalstudy of oxygen vacancies at the ° sno2 ° surface and subsurface sites. Physical Review B, 77,245410+. 97, 99, 100, 101tel-00589730, version 1 - 1 May 2011Uren, M.J., Davies, R.A., Kaveh, M. & Pepper, M. (1981). Logarithmic corrections to twodimensionaltransport in silicon inversion layers. Journal of Physics C : Solid State Physics,14, 5737–5762. 160Van den dries, L., Van Haesendonck, C., Bruynseraede, Y. & Deutscher, G. (1981).Two-dimensional localization in thin copper films. Physical Review Letters, 46, 565–568. 5Vignolles, D., Smirnov, D., Rikken, G., Raquet, B., Rakoto, H., Proust, C., Nardone,M., Léotin, J., Lecouturier, F., Goiran, M., Drachenko, O., Broto, J.M.,Brossard, L. & Audouard, A. (2003). Low Temperature Physics at the Laboratoire Nationaldes Champs Magnétiques Pulsés in Toulouse. Journal of Low Temperature Physics, 133,97–120. 118Vollhardt, D. & Wölfle, P. (1980a). Anderson localization in °d 2° dimensions : A selfconsistentdiagrammatic theory. Physical Review Letters, 45, 1370+. 161, 163Vollhardt, D. & Wölfle, P. (1980b). Diagrammatic, self-consistent treatment of the andersonlocalization problem in °d¡=2° dimensions. Physical Review B, 22, 4666–4679. 161, 163Watson, J. (2006). The Stannic oxide semiconductor gas sensor. in Sensors, Nanoscience, BiomedicalEngineering, and Instruments : Sensors Nanoscience Biomedical Engineering (TheElectrical Engineering Handbook Third Edition), 1–18–1–24. CRC Press, 3rd edn. 97Wegner, F. (1979). The mobility edge problem : Continuous symmetry and a conjecture. Zeitschriftfür Physik B Condensed Matter, 35, 207–210. 19, 20, 22, 23, 133Wegner, F. (1981). Bounds on the density of states in disordered systems. Zeitschrift für PhysikB Condensed Matter, 44, 9–15. 22Wegner, F. (1989). Four-loop-order -function of nonlinear -models in symmetric spaces. NuclearPhysics B, 316, 663–678. 22, 23Wegner, F.J. (1976). Electrons in disordered systems. Scaling near the mobility edge. Zeitschriftfür Physik B Condensed Matter, 25, 327–337. 19194
RÉFÉRENCES(y.) Bogoliubov, N.N. & Sadovnikov, B.I. (1975). Some questions of statistical mechanics.Moscow. “Vysshaya Shkola”. 15Yadava, Y., Denicolo, G., Arias, A., Roman, L. & Hummelgen, I. (1997). Preparation andcharacterization of transparent conducting tin oxide thin film electrodes by chemical vapourdeposition from reactive thermal evaporation of sncl. Materials Chemistry and Physics, 48,263–267. 103Zala, G., Narozhny, B.N. & Aleiner, I.L. (2001a). Interaction corrections at intermediatetemperatures : Longitudinal conductivity and kinetic equation. Physical Review B, 64, 214204+.63tel-00589730, version 1 - 1 May 2011Zala, G., Narozhny, B.N. & Aleiner, I.L. (2001b). Interaction corrections at intermediatetemperatures : Longitudinal conductivity and kinetic equation. Physical Review B, 64, 214204+.68, 69, 71, 82, 91, 92, 93, 94, 132, 135Zduniak, A., Dyakonov, M.I. & Knap, W. (1997). Universal behavior of magnetoconductancedue to weak localization in two dimensions. Physical Review B, 56, 1996–2003. 150, 151, 164Zhang, D.H. & Ma, H.L. (1996). Scattering mechanisms of charge carriers in transparentconducting oxide films. Applied Physics A : Materials Science & Processing, 62, 487–492. 99,100, 102, 105Zhao, H.L., Spivak, B.Z., Gelfand, M.P. & Feng, S. (1991). Negative magnetoresistance invariable-range-hopping conduction. Physical Review B, 44, 10760–10767. 49195
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THÈSEtel-00589730, version 1 - 1 M
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tel-00589730, version 1 - 1 May 201
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Table des matièresTable des figure
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TABLE DES FIGURES7.5 Dépendances d
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TABLE DES FIGUREStel-00589730, vers
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LISTE DES TABLEAUXtel-00589730, ver
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1. INTRODUCTIONtel-00589730, versio
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1. INTRODUCTION(ρ - concentration
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2. PRÉSENTATION DE L’ÉTUDESigna
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2. PRÉSENTATION DE L’ÉTUDEtel-0
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3. MÉCANISMES DE TRANSPORT DE CHAR
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4. LES VOIES DE LA DIFFUSION DES PO
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4.1 L’interaction entre les quasi
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4.2 Quantification et l’Hamiltoni
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4.4 Les effets de l’interaction
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5.1 Les couches polycristallines de
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7.1 Les méthodes d’extraction de
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7.2 Localisation faible et l’inte
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Page 197 and 198: RéférencesAbrahams, E. & Ramakris
Page 199 and 200: RÉFÉRENCESAltshuler, B. L., Arono
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Page 203 and 204: RÉFÉRENCESGiraldi, T.R., Lanfredi
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Page 207 and 208: RÉFÉRENCESMessiah (1999). Mécani
Page 209 and 210: RÉFÉRENCESNiimi, Y., Baines, Y.,
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