Phase Shifts, the Friedel Sum Rule, Resonant Tunneling through Asymmetric Potentials
スポンサーリンク
概要
- 論文の詳細を見る
Phase shifts are defined for the scattering off an asymmetric potential in a one dimensional space. The Friedel sum rule is derived for such a system, and the resonant tunneling through the asymmetric double-barrier potential is analysed. When the potential goes to symmetric, the newly defined phase shifts do not tend to those defined by Kawabata for the symmetric potential, although the physical quantities expressed in terms of the phase shifts are the same in this limit.
- 社団法人日本物理学会の論文
- 1994-07-15
著者
-
Kajiyama K
Ion Engineering Res. Inst. Co. Osaka Jpn
-
MIZUNO Takayuki
Department of Internal Medicine Osaka Medical College
-
Kawamura Ken-ichi
Hosono Transparent Electro-active Materials (team) Project Erato Japan Science And Technology Corpor
-
Kawamura K
Keio Univ. Yokohama
-
KAWAMURA Kiyoshi
Department of Physics, Faculty of Science and Technology, Keio University
-
ETO Mikio
Department of Physics, Faculty of Science and Technology, Keio University
-
Eto Mikio
Department Of Physics Faculty Of Science And Technology Keio University
-
Kajiyama K
Ion Engineering Research Institute Co.
-
Kawamura Kiyoshi
Department Of Electrical Engineering College Of Science And Technology Nihon University
-
Mizuno Takayuki
Department Of Physics Faculty Of Science And Technology Keio University
-
Mizuno Takayuki
Department Of Chemistry For Materials Faculty Of Engineering Mie University
-
Kawamura Kiyoshi
Department of Chemistry, Faculty of Science, Kyoto University
関連論文
- Ashing Properties in a Surface-Wave Mode Plasma with a Quartz Window
- Surface Wave Plasma Production Employing High Permittivity Material for Microwave Window : Nuclear Science, Plasmas, and Electric Discharges
- Ashing Properties in a Surface-Wave Mode Plasma with a High-Permittivity Alumina Window : Semiconductors
- Oxygen Microwave Plasma Density Enhancement by Surface Waves with a High-Permittivity Material Window
- Production of Large-Diameter Microwave Plasma with a High-Permittivity Material Window
- A Study of Cerebral Circulation by Eyeground Photography during 10% Oxygen Respiration : PROCEEDINGS OF THE 25TH ANNUAL MEETlNG, JAPANESE CIRCULATION SOCIETY Part III
- Clinical Incidence of Arrhythmia : PROCEEDINGS OF THE 25TH ANNUAL MEETlNG, JAPANESE CIRCULATION SOCIETY Part III
- Analysis of Buried-Oxide Dielectric Breakdown Mechanism in Low-Dose Separation by Implanted Oxygen (SIMOX) Substrates Fabricated by Internal Thermal Oxidation (ITOX) Process
- Analysis of Buried-Oxide Dielectric Breakdown Mechanism in Low-Dose SIMOX Structures
- Evaluation of Fixed Charge and Interface Trap Densities in SIMOX Wafers and Their Effects on Device Characteristics
- Current-Path Observation in Low-Dose SIMOX (Separation by Implanted Oxygen) Buried-SiO_2 Layer
- Dislocation Density Reduction in SIMOX (Separation by Implanted Oxygen) Multi-Energy Single Implantation
- Applications of Wide-Band-Gap Materials for Optoelectronic Functional Devices Fabricated by a Pair of Interfering Femtosecond Laser Pulses
- Formation of Microstructure in SiO_2 Thin Film by a Femtosecond Laser Pulse
- Holographic Encoding of Permanent Gratings Embedded in Diamond by Two Beam Interference of a Single Femtosecond Near-Infrared Laser Pulse
- Native Response of C. elegans Encoded in Its Neuron Network : Cross-Disciplinary Physics
- Does a Randomly Organized Electrical Circuit Function as a Neuronal System?
- Theory of Artificial Atoms and Molecules using Semiconductor Quantum Dots
- Linear Conductance through Parallel Quantum Dot Dimer below the Kondo Temperature
- Conductance through Quantum Dot Dimer Below the Kondo Temperature
- Studies of Charging Effects on Resonant Tunneling Diodes in Terms of Extended Friedel Sum Rule
- Phase Shifts, the Friedel Sum Rule, Resonant Tunneling through Asymmetric Potentials
- Visible Electroluminescence from P-Type Crystalline Silicon/Porous Silicon/N-Type Microcrystalline Silicon Carbon PN Junction Diodes
- Properties of Hydrophone with Porous Piezoelectric Ceramics : Piezoelectrics
- Temperature Dependence of X-Ray Topographic Images Taken around Indentations of Si Single Crystals
- Anomalous Phonon Drag Effect in Graphite
- Structure and Refractive Indices of Proton-Implanted LiNbO_3
- The Solution of the Aharonov-Bohm Equation
- Hall Resistance Anomalies and Quasi-Bound States within Hall Junctions
- Analysis of the Hall Effect in Terms of Magneto-Focusing in Quantum Dots
- Phase Relaxation and Non-Equilibrium Transport Properties through Multilevel Quantum Dot
- Photocatalytic Reduction of CO_2 with Dispersed TiO_2/Cu Powder Mixtures in Superctirical Co_2
- Fraunhoffer Diffraction of Electrons in Anisotropic Media
- Electron Transport in Low-Stage Graphite-ICl Intercalation Compounds
- C-Axis Conduction in Low Stage Graphite Intercalation Compounds with Iodine Monochrolide
- グラファイトの熱磁気効果測定について(ノ-ト)〔英文〕
- First Principles Investigation of the Electronic Structures of Copper Oxide Superconductors by the MCSCF Cluster Method
- Double Quantum Dots as Dissipative Two Level Systems ( Quantum Dot Structures)
- Anomalous Temperature Dependence of Coulomb Oscillations at Nearly Degenerate Levels
- Theory of Single Electron Tunneling through a Quantum Dot Dimer ( Quantum Dot Structures)
- Separation of Cd_3(PO_4)_2, Cd(NO_3)_2 and CdCl_2 by Sequential Metal Vapor Elution Analysis
- Zinc Diffusion in In_xGa_As
- Galvanomagnetic Properties of Graphite Intercalated with Nitrate
- Temperature Dependence of Galvanomagnetic Properties of Graphite between 4.2 K and 298 K
- Solution of an Extended Aharonov-Bohm Problem in a Theory of Dislocation Scattering
- Sudden Drop of Dissipation in Field-Coupled Quantum Dot Resistors
- Fluctuation of Current through a Quantum Dot Far from Equilibrium: Effects of Strong Coulomb Correlatio
- Studies of Many-Body Effect on Resonant Tunneling by Green Function Method
- Electronic Structures of Few Electrons in a Quantum Dot under Magnetic Fields ( Quantum Dot Structures)
- Influences of Internal Fields of Fast Modulation to the Kondo Effect
- Comment on the Equilibrium Composition Relation in "Vapor Growth of InAs_xP_"
- Nonequilibrium Transport Properties through Parallel Quantum Dots ( Quantum Dot Structures)
- Many-Body States in a Quantum Dot under High Magnetic Fields
- The Direct Derivation of the Nagaoka-Hamann Equation
- Studies of the Correlation Effect on the Anderson-Localized States in Si:P by the MCSCF Method.I.Uncompensated Case
- ^1A_ to ^3B_ Conversion at the Onest of Superconductivity in La_Sr_xCuO_4 Due to the Apical Oxygen Effect
- On the Deep Level in Plastically Deformed Elemental Semiconductors
- One-Particle Green Function Defined for the s-d Bound State : Demonstration with the Truncated Hamiltonian
- The Ground State Energy of an Electron-Spin System Coupled by Ferromagnetic Interaction
- Contribution to the Theory of s-d Problem : The Spin Precession Terms
- Irreversible Electron Transfer between Two Molecules by Variable Hopping Parameter and Relaxation Processes (General)
- Irreversible Electron Transfer between Two Atoms
- Diamagmetic Susceptibility of Rhombohedral Graphite
- One-Particle Green Function Defined for the s-d Bound State. II : A General Formalism with the Ordinary s-d Hamiltonian
- On Axially- and Spherically-Symmetric Superfluidity in Coupled Fermion System
- Diamagnetic Susceptibility of Multiwall Carbon Nanotubes with Open and Closed Ends
- Magnetic Susceptibility of Oxygen Adsorbed by Type A Bead like Zeolite
- Applications of Wide-Band-Gap Materials for Optoelectronic Functional Devices Fabricated by a Pair of Interfering Femtosecond Laser Pulses
- Kink-Solitons in Quantum-Dot Cellular Automata
- Influence of Screw Dislocations on the de Haas-van Alphen Signals from Neck Region of Fermi Surface
- Does a Randomly Organized Electrical Circuit Function as a Neuronal System?
- Nonequilibrium Transport Properties through Parallel Quantum Dots