Coulomb Excitations and Decays in Graphene-Related Systems
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Coulomb Excitations and Decays in Graphene-Related Systems
Wu, Jhao-Ying; Chiu, Chih-Wei; Lin, Chiun-Yan; Lin, Ming-Fa
Taylor & Francis Ltd
03/2021
382
Mole
Inglês
9780367779634
15 a 20 dias
703
Descrição não disponível.
1. Introduction 2. Theories for Electronic Excitations in Layered Graphenes, 3D Graphites, and 1D Carbon Nanotubes: Experimental Equipments 3. Monolayer Graphene 4. AA-Stacked Graphenes 5. AB-Stacked Graphenes 6. ABC-Stacked Graphenes 7. AAB-Stacked Graphene 8. Sliding Bilayer Graphene 9. Diversified Effects due to a Perpendicular Electric Field 10. Magnetoelectronic Excitations: Monolayer and Bilayer Graphenes 11. 3D Coulomb Excitations of Simple Hexagonal, Bernal, and Rhombohedral Graphites 12. 1D Electronic Excitations in Metallic and Semiconducting Nanotubes 13. Electronic Excitations in Monolayer Silicene and Germanene 14. Coulomb Decay Rates in Graphene 15. Concluding Remarks and Perspectives 16. Problems
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Mono-layer Graphene;Graphite Intercalation Compounds;1D graphene;Interlayer Atomic Interactions;2D graphene;Plasmon Modes;3D graphene;Monolayer Graphene;nanomaterials;Single Particle Excitation;condensed matter physics;Landau Dampings;layered graphene systems;Energy Loss Spectra;Coulomb decay rates;AA Stacking;complex Coulomb excitations;Dirac Cone Structure;spin-orbital couplings;Interband Excitations;orbital hybridizations;Collective Excitations;ABC Stacking;Intraband Excitations;Plasmon Peaks;Energy Loss Functions;AB Stacking;Plasmon Frequency;Dirac Cone;Bernal Graphite;Optical Plasmons;Free Carrier Density;Band Edge States;ARPES Measurement;Rhombohedral Graphite
1. Introduction 2. Theories for Electronic Excitations in Layered Graphenes, 3D Graphites, and 1D Carbon Nanotubes: Experimental Equipments 3. Monolayer Graphene 4. AA-Stacked Graphenes 5. AB-Stacked Graphenes 6. ABC-Stacked Graphenes 7. AAB-Stacked Graphene 8. Sliding Bilayer Graphene 9. Diversified Effects due to a Perpendicular Electric Field 10. Magnetoelectronic Excitations: Monolayer and Bilayer Graphenes 11. 3D Coulomb Excitations of Simple Hexagonal, Bernal, and Rhombohedral Graphites 12. 1D Electronic Excitations in Metallic and Semiconducting Nanotubes 13. Electronic Excitations in Monolayer Silicene and Germanene 14. Coulomb Decay Rates in Graphene 15. Concluding Remarks and Perspectives 16. Problems
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Mono-layer Graphene;Graphite Intercalation Compounds;1D graphene;Interlayer Atomic Interactions;2D graphene;Plasmon Modes;3D graphene;Monolayer Graphene;nanomaterials;Single Particle Excitation;condensed matter physics;Landau Dampings;layered graphene systems;Energy Loss Spectra;Coulomb decay rates;AA Stacking;complex Coulomb excitations;Dirac Cone Structure;spin-orbital couplings;Interband Excitations;orbital hybridizations;Collective Excitations;ABC Stacking;Intraband Excitations;Plasmon Peaks;Energy Loss Functions;AB Stacking;Plasmon Frequency;Dirac Cone;Bernal Graphite;Optical Plasmons;Free Carrier Density;Band Edge States;ARPES Measurement;Rhombohedral Graphite
