Landau Level Structure and Magnetic Breakthrough in Graphite
スポンサーリンク
概要
- 論文の詳細を見る
The exact Landau level structure of graphite has been obtained for the magnetic field parallel to the $c$-axis with the aid of the numerical calculation. Special emphasis is layed on the effect of the trigonal warping in band structure which has been treated approximately up to the present. The peculiar behaviour of Landau levels in low fields can be understood in terms of the magnetic breakthrough phenomenon. A new de Haas-van Alphen oscillation of the minority hole is predicted and connected with another magnetic breakthrough effect due also to the trigonal warping.
- 社団法人日本物理学会の論文
- 1976-03-15
著者
関連論文
- Dynamics and Pressure Effect of the Helix in Ferroelectric Liquid Crystal with Small Pitch : L: LIQUID CRYSTALS
- Influence of Electric Field and Cell Thickness on Dielectric Behaviour of Ferroelectric Liquid Crystal at Phase Transition : L: Liquid Crystals
- Characteristic of Dielectric Behaviour of Ferroelectric Liquid Crystal at Smectic-A and Chiral Smectic-C Phase Transition
- Reversal of Spontaneous Polarization Direction in Ferroelectric Liquid Crystal with Temperature : L: Liquid Crystals
- Ca^ transport activity of scallop divalent metal transporter at the concentration of seawater level
- Crystal Structure and Magnetic Properties of an Organic Ion-Radical Salt : 1,3'-Diethyl-2,2'-Quinoselenacyanine-[TCNQ]_2
- Crystal Structure and Electronic Properties of an Organic Ion-Radical Salt : 3,3' -Diethyl-4,4'-Dimethyl-2,2' -Thiazolocyanine-[TCNQ]_2
- Novel Doping Effect of Conducting Polymer Gel
- Angular Dependence of Transient Light Scattering in Ferroelectric Liquid Crystal : L: LIQUID CRYSTALS
- The Acceptor States in Tellurium
- Variational Calculation of Acceptor States in Tellurium
- Combined OPW-TB Method for the Band Calculation of Layer-Type Crystals. II. : The Band Structure of Graphite
- Combined OPW-TB Method for the Band Calculation of Layer-Type Crystals. I. : General Formalism and Application to the π Band of Graphite
- Anisotropic Characteristics of Drawn Poly(3-alkylthiophene) Gel
- Effect of Hydrostatic Pressure on the Absorption Spectrum of Poly(3-alkylthiophene) Solution
- Self-Consistent Calculation of the Band Structure of C_8K Including the Charge Transfer Effect
- The First Principle Calculation of the Energy Band of Potassium Graphite Intercalation compound C_8K(Superconductivity・Intercalation)
- Electronic Band Structure of Superlattices in Magnetic Fields
- Electronic Band Structure of Superlattices in Magnetic Fields(Phase Transition・Charge Density Wave)
- Band Theory of Graphite. : I. Formalism of a New Method of Calculation and the Fermi Surface of Graphite
- Near Infrared Reflectivity of Graphite under Hydrostatic Pressure. II. Theoretical Foundation of Lineshape Analysis
- The Valence Band Structure of Tellurium. : III. The Landau Levels
- The Valence Band Structure of Tellurium. II. : The Infrared Absorption
- The Valence Band Structure of Tellurium. : I. The k・p Perturbation Method
- Electrical Resistivity due to Electron-Electron Scattering in Quasi-One-Dimensional Metals
- Morphology in the Optical Spectra of the Anisotropic Crystals
- Electronic Structure of Potassium-Graphite Intercalation Compound:C_8K
- Landau Level Structure and Magnetic Breakthrough in Graphite