Band Structure

Bandstructure Effects in Silicon Nanowire Hole Transport

Nanoelectronics / Nanowire / Nanotechnology / Field effect transistors / Anisotropy / Nanowires / Integer quantum hall effect / Dispersion / Band Structure / Quantization / Si / Degradation / PMOs / First-Order Logic / Electron Transport / Valence Bands / Electrons / Capacitance / Electrical Conductivity / Cross Section / Tight Binding / Effective mass / Ballistic Transport / Hole Mobility / Poisson Equation / Charge Distribution / Electrical And Electronic Engineering / Anisotropia / Spin Orbit Coupling / Nanowires / Integer quantum hall effect / Dispersion / Band Structure / Quantization / Si / Degradation / PMOs / First-Order Logic / Electron Transport / Valence Bands / Electrons / Capacitance / Electrical Conductivity / Cross Section / Tight Binding / Effective mass / Ballistic Transport / Hole Mobility / Poisson Equation / Charge Distribution / Electrical And Electronic Engineering / Anisotropia / Spin Orbit Coupling

Magneto-transport in asymmetric serial loop structures

Band Structure / Mathematical Sciences / Physical sciences / Band Gap / Spin Wave / HEISENBERG-MODEL

Energy-band diagram of metal/Lu[sub 2]O[sub 3]/silicon structures

Engineering / Band Structure / Physical sciences / Band Gap / Photoemission Spectroscopy / Electron Density / Optical band gap / Electron Density / Optical band gap

Magneto-transport in asymmetric serial loop structures

Band Structure / Mathematical Sciences / Physical sciences / Band Gap / Spin Wave / HEISENBERG-MODEL

Structural, electronic, and magnetic properties of Fe2SiO4 fayalite: Comparison of LDA and GGA results

Engineering / Mechanical Engineering / Geochemistry / Condensed Matter Physics / Inorganic Chemistry / Solid State Chemistry / Density-functional theory / Inorganic / Scanning tunneling microscopy / Band Structure / Computer Software / DFT calculation / Mathematical Sciences / Heavy Ions Physics / Structured data / Thin Film / Physical sciences / Magnetic Properties / Magnetic Susceptibility / Domain wall / Electronic properties / Low energy electron diffraction / Electron Density / Electronic Structure / CHEMICAL SCIENCES / Rare Earth Element Mineralization / Energy Production / Curie temperature / X ray diffraction / Single Crystal / Rare Earth / Tight Binding / Model System / Structural Properties / Three Dimensional / Magnetism and Magnetic Materials / Interdisciplinary Engineering / THEORETICAL AND COMPUTATIONAL CHEMISTRY / Structural Chemistry / Ab Initio Calculation / Vibrating Sample Magnetometer / Intermetallic Compound / Zero-field-cooled / Biochemistry and cell biology / Current Mode / Magnetic Anomalies / Spin Polarization / Ion Irradiation / Solid State Chemistry / Density-functional theory / Inorganic / Scanning tunneling microscopy / Band Structure / Computer Software / DFT calculation / Mathematical Sciences / Heavy Ions Physics / Structured data / Thin Film / Physical sciences / Magnetic Properties / Magnetic Susceptibility / Domain wall / Electronic properties / Low energy electron diffraction / Electron Density / Electronic Structure / CHEMICAL SCIENCES / Rare Earth Element Mineralization / Energy Production / Curie temperature / X ray diffraction / Single Crystal / Rare Earth / Tight Binding / Model System / Structural Properties / Three Dimensional / Magnetism and Magnetic Materials / Interdisciplinary Engineering / THEORETICAL AND COMPUTATIONAL CHEMISTRY / Structural Chemistry / Ab Initio Calculation / Vibrating Sample Magnetometer / Intermetallic Compound / Zero-field-cooled / Biochemistry and cell biology / Current Mode / Magnetic Anomalies / Spin Polarization / Ion Irradiation

Making a Reconfigurable Artificial Crystal by Ordering Bistable Magnetic Nanowires

Magnetic field / Nanowires / Band Structure / Physical sciences / Band Gap / Spin Wave / Superlattices / Spin Wave / Superlattices

O(N) real-space method for ab initio quantum transport calculations: Application to carbon nanotube–metal contacts

Carbon Nanotube / Nanowires / Quantum Transport / Band Structure / Electron Transport / Electronic Structure / Electrical Properties / Tight Binding / Contact Resistance / Carbon Nano Tube / Ab Initio Calculation / Electronic Structure / Electrical Properties / Tight Binding / Contact Resistance / Carbon Nano Tube / Ab Initio Calculation

Theoretical optical parameters for III-nitride semiconductors

Microelectronics / Band Structure / DFT calculation / Nitrides / Zinc / Electronic Structure / Dielectric Constant / LAPW Method / Electrical And Electronic Engineering / Laser Diode / Optical Parameters / Light Emitting Diode / Electronic Structure / Dielectric Constant / LAPW Method / Electrical And Electronic Engineering / Laser Diode / Optical Parameters / Light Emitting Diode

Energy-band diagram of metal/Lu[sub 2]O[sub 3]/silicon structures

Engineering / Band Structure / Physical sciences / Band Gap / Photoemission Spectroscopy / Electron Density / Optical band gap / Electron Density / Optical band gap

Method for tight-binding parametrization: Application to silicon nanostructures

Band Structure / Parametric Design / Solid State electronic devices / Physical sciences / Spin-Orbit Coupling / CHEMICAL SCIENCES / Tight Binding / Effective mass / CHEMICAL SCIENCES / Tight Binding / Effective mass

High temperature ferromagnetism and optical properties of Co doped ZnO nanoparticles

Engineering / Applied Physics / Transmission Electron Microscopy / Band Structure / Mathematical Sciences / Ultraviolet / High Resolution Transmission Electron Microscopy / Physical sciences / Optical Properties / High Temperature / Temperature Dependence / Curie temperature / Percolation threshold / X ray diffraction / Particle Size / Room Temperature / Bound States / Raman Spectra / Ultraviolet / High Resolution Transmission Electron Microscopy / Physical sciences / Optical Properties / High Temperature / Temperature Dependence / Curie temperature / Percolation threshold / X ray diffraction / Particle Size / Room Temperature / Bound States / Raman Spectra

High temperature ferromagnetism and optical properties of Co doped ZnO nanoparticles

Engineering / Applied Physics / Transmission Electron Microscopy / Band Structure / Mathematical Sciences / Ultraviolet / High Resolution Transmission Electron Microscopy / Physical sciences / Optical Properties / High Temperature / Temperature Dependence / Curie temperature / Percolation threshold / X ray diffraction / Particle Size / Room Temperature / Bound States / Raman Spectra / Ultraviolet / High Resolution Transmission Electron Microscopy / Physical sciences / Optical Properties / High Temperature / Temperature Dependence / Curie temperature / Percolation threshold / X ray diffraction / Particle Size / Room Temperature / Bound States / Raman Spectra

Quantum Transport in Semiconductor Nanostructures

Solid State Physics / Fractional Quantum Hall Effect (FQHE) / Quantum Transport / Band Structure / Aharonov-Bohm Effect / Quantum Hall Effect / Ballistic Transport / Size Effect / Quantum Point Contact / Weak Localization / Strong magnetic field / Quantum Hall Effect / Ballistic Transport / Size Effect / Quantum Point Contact / Weak Localization / Strong magnetic field

Copyright © 2017 DADOSPDF Inc.