Diverse Quantization Phenomena in Layered Materials
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Diverse Quantization Phenomena in Layered Materials
Lin, Chiun-Yan; Wu, Jhao-Ying; Lin, Shih-Yang; Ho, Ching-Hong; Do, Thi-Nga; Shih, Po-Hsin; Lin, Ming-Fa
Taylor & Francis Ltd
08/2021
348
Mole
Inglês
9781032082684
15 a 20 dias
689
Descrição não disponível.
1. Introduction. 2. Experimental Measurements on Magnetic Quantization. 3. Theoretical Models. 4. Twisted Bilayer Graphene Systems. 5. Stacking-Configuration-Modulated Bilayer Graphene. 6. AA-Bottom-Top Bilayer Silicene Systems. 7. AB-Bottom-Top Bilayer Silicene. 8. Si-Doped Graphene Systems. 9. Unusual Quantum Transport Properties. 10. Rich Magneto-Coulomb Excitations in Germanene. 11. Topological Characterization of Landau Levels for 2D Massless Dirac Fermions in 3D Layered Systems. 12. Concluding Remarks. 13. Future Perspectives and Open Issues.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
- Física da Matéria Condensada (física do estado sólido e estado líquido)
- Ciência ambiental, engenharia e tecnologia
- Tecnologia das microondas
- Química física
- Física óptica
- Dispositivos e materiais electrónicos
- Engenharia electrotécnica
- Ciências da vida: temas gerais
- Ciência dos materiais
- Nanotecnologia
Landau Level;Landau Subbands;diverse quantization phenomena;Magnetic Quantization;layered materials;Subenvelope Functions;quantum topological insulators;Interlayer Atomic Interactions;quantum Hall conductivities;Angle Resolved Photoemission Spectroscopy;magneto-electronic properties;Dirac Cone Structure;Bilayer Graphene;Monolayer Graphene;Spin Orbital Couplings;Gate Voltage;Graphene Nanoribbons;Half Integer QHE;AA Stacking;Massless Dirac Fermions;Band Edge States;Dirac Cone;Hopping Integrals;Hall Conductivities;Condensed Matter Systems;Landau Level Energy;Fermi Energy;Magneto Transport Properties;DW Region
1. Introduction. 2. Experimental Measurements on Magnetic Quantization. 3. Theoretical Models. 4. Twisted Bilayer Graphene Systems. 5. Stacking-Configuration-Modulated Bilayer Graphene. 6. AA-Bottom-Top Bilayer Silicene Systems. 7. AB-Bottom-Top Bilayer Silicene. 8. Si-Doped Graphene Systems. 9. Unusual Quantum Transport Properties. 10. Rich Magneto-Coulomb Excitations in Germanene. 11. Topological Characterization of Landau Levels for 2D Massless Dirac Fermions in 3D Layered Systems. 12. Concluding Remarks. 13. Future Perspectives and Open Issues.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
- Física da Matéria Condensada (física do estado sólido e estado líquido)
- Ciência ambiental, engenharia e tecnologia
- Tecnologia das microondas
- Química física
- Física óptica
- Dispositivos e materiais electrónicos
- Engenharia electrotécnica
- Ciências da vida: temas gerais
- Ciência dos materiais
- Nanotecnologia
Landau Level;Landau Subbands;diverse quantization phenomena;Magnetic Quantization;layered materials;Subenvelope Functions;quantum topological insulators;Interlayer Atomic Interactions;quantum Hall conductivities;Angle Resolved Photoemission Spectroscopy;magneto-electronic properties;Dirac Cone Structure;Bilayer Graphene;Monolayer Graphene;Spin Orbital Couplings;Gate Voltage;Graphene Nanoribbons;Half Integer QHE;AA Stacking;Massless Dirac Fermions;Band Edge States;Dirac Cone;Hopping Integrals;Hall Conductivities;Condensed Matter Systems;Landau Level Energy;Fermi Energy;Magneto Transport Properties;DW Region
