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200 10$aElectronic properties of rhombohedral graphite /$fServet Ozdemir
210  1$aCham, Switzerland :$cSpringer,$d[2021]
210  4$d©2021
215   $a1 online resource (142 pages)
225 1 $aSpringer Theses
311   $a3-030-88306-X 
327   $aIntro -- Supervisor's Foreword -- Preface -- Acknowledgements -- Contents -- 1 Review of Rhombohedral Graphite -- 1.1 Introduction -- 1.2 Crystal Structure and Hexagonal Brillouin Zone of Graphene -- 1.3 Tight Binding Approximation of Graphene -- 1.3.1 Matrix Elements -- 1.4 Low Energy Bands -- 1.5 Linear Dispersion Relation and Massless Dirac Fermions -- 1.6 Pseudospin, Chirality, and Berry Phase -- 1.7 Tight Binding Model of AB-Stacked Bilayer Graphene -- 1.8 Low Energy Band Structure of Bilayer Graphene -- 1.9 Two Band Hamiltonian, Chirality, and Berry Phase in Bilayer Graphene -- 1.10 Tight Binding Model of ABC Stacked N-layer Graphene -- 1.11 Topological Arguments for Low Energy Flat Surface Bands -- 1.12 Landau Spectrum of ABC-Stacked Graphene Layers -- 1.13 Spontaneous Symmetry Broken States -- 1.14 Displacement Field Induced Gap and Screening Effects in Rhombohedral Stacks of Graphene -- 1.15 Trigonal Warping and Berry Phase of N? in Rhombohedral Graphite -- 1.16 Flat Band Superconductivity in Rhombohedral Graphite -- 1.17 Stacking Faults on Rhombohedral Graphite Films -- 1.18 Identification of Rhombohedral Graphite -- 1.18.1 Raman Spectroscopy -- 1.18.2 Transmission Electron Microscopy -- 1.19 Density Functional Theory Predicted Magnetic Gap -- 1.20 Angular Resolved Photoemission Spectroscopy of Rhombohedral Graphite -- 1.21 Shear Stress and Doping Induced Stacking Order Control -- 1.22 Summary -- References -- 2 Fundamentals of Electron Transport -- 2.1 Introduction -- 2.2 Effective Mass, Mobility, and Electrical Conductivity -- 2.3 Ohms Law Using Boltzmann Transport Equation -- 2.4 Quasi Fermi Level Separation and Diffusive Electron Transport Viewpoint -- 2.5 Hall Effect in a Two-Dimensional System in the Presence of Non-quantising Magnetic Field -- 2.6 Multi-band Transport.
327   $a2.7 Hall Effect in a Two-Dimensional System in the Presence of Quantising Magnetic Field -- 2.8 Hall Effects in the Absence of Magnetic Field -- 2.8.1 Anomalous Hall Effect -- 2.8.2 Spin Hall Effect -- 2.8.3 Valley Hall Effect -- 2.9 Localization Effects in Disordered Mesoscopic Systems -- 2.9.1 Classical Picture of Diffusion and Localization -- 2.9.2 Weak Localization -- 2.9.3 Weak Anti-localization -- References -- 3 Experimental Technicalities -- 3.1 Fabrication of van der Waals Heterostructures -- 3.2 Measurement Electronics -- 3.2.1 Phase Sensitive Detection and Lock in Amplifier -- 3.3 Measurement Geometry and Electrostatic Gating -- 3.4 Temperature Control -- 3.4.1 Sorption Pump-Controlled Helium-3 Cooling -- 3.4.2 Helium-3/Helium-4 Mixture Dilution Fridge -- 3.5 Magnetic Field -- 3.6 Summary -- References -- 4 Bulk Versus Surface Conduction in Rhombohedral Graphite Films -- 4.1 Introduction -- 4.2 Temperature Dependence of Zero Gate Resistivity -- 4.3 Multi Carrier-Type Transport -- 4.4 Semiconductor-Metal Transition -- 4.5 Summary -- References -- 5 Landau Level Spectroscopy of Rhombohedral Graphite Films -- 5.1 Introduction -- 5.2 Single Gated Landau Fan Maps -- 5.3 Implied Low Energy Band Structure -- 5.4 Discussion -- 5.5 Summary -- References -- 6 Spontaneous Gap Opening in at Charge Neutrality Point of Rhombohedral Graphite Films -- 6.1 Introduction -- 6.2 Thermal Activation Gap Accompanied by Topological Currents -- 6.3 DC Characterisation of the Gapped Resistive State -- 6.4 Magnetic Field Dependence -- 6.5 Hysteretic Behaviour -- 6.6 Summary -- References -- 7 Displacement Field Induced Band Gap Opening in Rhombohedral Graphite Films -- 7.1 Introduction -- 7.2 Displacement Field Induced Resistivity Increase -- 7.3 Absence of a Gap Opening for Graphite Films of Mixed Stacking.
327   $a7.4 Non-local Signal Due to Displacement Field Induced Gap Opening -- 7.5 Summary -- References -- 8 Three Dimensional Quantum Interference of Bulk Electrons -- 8.1 Introduction -- 8.2 Magnetic Field Rotation of a 9-Layer Film -- 8.3 Magnetic Field Rotation of a 14-Layer Film -- 8.4 Summary -- References -- 9 Summary -- Curriculum Vitae -- Servet Ozdemir -- Employment History -- Education -- Publications -- Talks and Presentations -- Awards.
410  0$aSpringer theses.
606   $aGraphite
606   $aGraphene
606   $aThin films
615  0$aGraphite.
615  0$aGraphene.
615  0$aThin films.
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200 10$aGoverning the post-communist city $einstitutions and democratic development in Prague /$fMartin Horak
210  1$aToronto, [Ontario] ;$aBuffalo, [New York] ;$aLondon, [England] :$cUniversity of Toronto Press,$d2007.
210  4$d©2007
215   $a1 online resource (283 p.) 
300   $aBibliographic Level Mode of Issuance: Monograph
311   $a0-8020-9328-0 
320   $aIncludes bibliographical references and index.
327   $a1. Introduction -- 2. structure of government in Prague : building a strong local state -- 3. Institutions and political actors in early post-communist Prague -- 4. Planning and developing the main road network : the politics of mutual delegitimation -- 5. Preservation and development in Prague's historic core : the politics of profit -- 6. Institutional change and government performance : lessons from Prague -- App. Data on interviews.
330   $aOriginal, engaging, and authoritative, this study has much to say about the political climate in Prague after the downfall of communism, and makes insightful conclusions about the factors that contributed to present political circumstances in the region.
606   $aCity planning$zCzech Republic$zPrague
606   $aPost-communism$zCzech Republic$zPrague
607   $aPrague (Czech Republic)$xPolitics and government
608   $aHistory.
608   $aElectronic books. 
615  0$aCity planning
615  0$aPost-communism
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