Transient Response of the Aharonov-Bohm Effect
スポンサーリンク
概要
- 論文の詳細を見る
The transient phenomenon of the Aharonov-Bohm effect is formulated using a quantum mechanical model. As a result, it is found that the intrinsic response time is equal to the electron transit time of the ring. To apply the Aharonov-Bohm effect to high-speed devices, it is important to reduce the transit time.
- INSTITUTE OF PURE AND APPLIED PHYSICSの論文
- 1989-02-20
著者
-
Furuya Kazuhito
Department Of Electrical And Electronic Engineering
-
Furuya Kazuhito
Department of Electrical and Electronics Engineering, Tokyo Institute of Technology, Ookayama, Meguro-ku, Tokyo 152
関連論文
- Gated Tunneling Structures with Buried Tungsten Grating Adjacent to Semiconductor Heterostructures
- Gated Resonant Tunneling Structures with Buried Tungsten Grating Adjacent to Semiconductor Heterostructures
- Proposal for a Solid State Biprism Device
- Fabrication of Ultrafine X-Ray Mask Using Precise Crystal Growth Technique
- Light Emission from Quantum-Box Structure by Current Injection
- High-Quality n-GaInAs Grown by OMVPE Using Si_2H_6 by High-Velocity Flow
- Estimation of Collector Current Spreading in InGaAs SHBT Having 75-nm-Thick Collector
- Current Gain and Voltage Gain in Hot Electron Transistors without Base Layer(THz Devices,Heterostructure Microelectronics with TWHM2005)
- Phase Coherence and Temperature Dependence of Current-Voltage Characteristics at Low-Current and Low-Voltage Region of Double-Barrier Resonant-Tunneling Diode
- Phase-Breaking Effect Appearing in the Current-Voltage Characteristics of Double-Barrier Resonant Tunneling Diodes - Theoretical Fitting Over Four Orders of Magnitude -
- Phase Breaking Effect Appearing in I-V Characteristics of Double-Barrier Resonant-Tunneling Diodes : Theoretical Fitting Over Four Orders of Magnitude
- Wrapped Alignment Marks for Fabrication of Interference/Diffraction Hot Electron Devices
- W/Cr/Au/SiO_2 Composite Alignment Mark for Fabrication of Interference/Diffraction Hot Electron Devices
- Nanostrueture Alignment for Hot Electron Interference/Diffraction Devices
- Ultrafine Fabrication Technique for Hot Electron Interference/Diffraction Devices
- Effect of Spacer Layer Thickness on Energy Level Width Narrowing in GaInAs/InP Resonant Tunneling Diodes Grown by Organo-Metallic Vapor Phase Epitaxy
- Transport Anisotropy of Si Delta-Doped Layer in InP Grown by OMVPE
- Febrication of InP/GaInAs Double Heterojunction Bipolar Transistors with a 0.1-μm-Wide Emitter : Semiconductors
- Reduction of Base-Collector Capacitance inSubmicron InP/GalnAs Heterojunction Bipolar Transistors with Buried Tungsten Wires : Semiconductors
- Peak Width Analysis of Current-Voltage Characteristics of Triple-Barrier Resonant Tunneling Diodes
- First Fabrication of GaInAs/InP Buried Metal Heterojunction Bipolar Transistor and Reduction of Base-Collector Capacitance
- Characterization of GaInAs/InP Triple-Barrier Resonant Tunneling Diodes Grown by Organo-Metallic Vapor Phase Epitaxy for High-Temperature Estimation of Phase Coherent Length of Electrons
- Seventy-nm-Pitch Patterning on CaF_2 by e-beam Exposure
- High Temperature Estimation of Phase Coherent Length of Hot Electron Using GaInAs/InP Triple-Barrier Resonant Tunneling Diodes Grown by OMVPE
- Monolayer Steps Formation in InP and GaInAs by OMVPE and Reduction of Resonant Energy Width in GaInAs/InP RTDs
- Electrical Properties of 100 nm Pitch Cr/Au Fine Electrodes with 40 nm Width on GaInAs
- Fabrication of Vertical InGaAs Channel Metal-Insulator-Semiconductor Field Effect Transistor with a 15-nm-Wide Mesa Structure and a Drain Current Density of 7MA/cm^2
- 招待講演 InGaAs/InP MISFET with epitaxially grown source (Silicon devices and materials)
- 招待講演 InGaAs/InP MISFET with epitaxially grown source (Electron devices)
- Theoretical Relation between Spatial Resolution and Efficiency of Detection in Scanning Hot Electron Microscope
- Shortening of Detection Time for Observation of Hot Electron Spatial Distribution by Scanning Hot Electron Microscopy
- Design and Experimental Characteristics of n-St/CaF_2/Au Hot Electron Emitter for Use in Scanning Hot Electron Microscopy
- Comparison between Fermi-Dirac and Boltzmann Methods for Band-bending Calculations of Si/CaF_2/Au Hot Electron Emitter
- Characteristics and Reduction of Noise in Scanning Hot Electron Microscopy
- GaInAs/InP Hot Electron Transistors Grown by OMVPE
- Evaluation of Hot Electron Coherent Length Using Well Width Dependence of the Resonance Characteristics of Resonant Tunneling Diodes
- Estimation of Phase Coherent Length of Hot Electrons in GaInAs Using Resonant Tunneling Diodes
- GaInAsP/InP Single Quantum-Well Lasers by OMVPE
- Conditions for OMVPE Growth of GaInAsP/InP Crystal
- Vertical InGaAs Channel Metal--Insulator--Semiconductor Field Effect Transistor with High Current Density
- Current Peak Characteristics of Triple-Barrier Resonant-Tanneling Diodes with and without Phase Breaking : Semiconductors
- Possibility of High-Temperature Evaluation of Phase Coherent Length of Hot Electrons in Triple-Barrier Resonant Tunneling Diodes
- Estimation of collector current spreading in InGaAs SHBT having 75-nm-thick collector
- Estimation of collector current spreading in InGaAs SHBT having 75-nm-thick collector
- Wet Chemical Etching for Ultrafine Periodic Structure : Rectangular InP Corrugations of 70 nm Pitch and 100 nm Depth : Etching and Deposition Technology
- Analysis of Phase Breaking Effect in Resonant Tunneling Diodes Using Correlation Function
- Coherent Hot-Electron Emitter
- Observation of InP Surfaces after (NH_4)_2S_x Treatment by a Scanning Tunneling Microscope
- Influence of Impurities on the Performance of Doped-Well GaInAs/InP Resonant Tunneling Diodes
- Analysis of Phase-Breaking Effects in Triple-Barrier Resonant-Tunneling Diodes
- High Peak-to-Valley Current Ratio GaInAs/GaInP Resonant Tunneling Diodes
- Theoretical Study of Resonant Tunneling Diodes with Impurity Ions Located in Wells
- Wavefront Spread of Hot Electrons Generated by Planer Tunnel Emitters
- Improvement of Organometallic Vapor Phase Epitaxy Regrown GaInAs/InP Heterointerface by Surface Treatment
- Coherent Electron Devices
- InP Hot Electron Transistors with Emitter Mesa Fabricated between Gate Electrodes for Reduction in Emitter-Gate Gate-Leakage Current
- Increase in Collector Current in Hot-Electron Transistors Controlled by Gate Bias
- Proposal of a Technique to Detect Subsurface Hot Electrons with a Scanning Probe Microscope
- InP Hot Electron Transistors with a Buried Metal Gate
- Fabrication of GaInAs/InP Heterojunction Bipolar Transistors with a Single Tungsten Wire as Collector Electrode
- InP/InGaAs Hot Electron Transistors with Insulated Gate
- Design and Simulation of Hot-Electron Diffraction Observation Using Scanning Probe: Quantitative Evaluation of Observation Possibility
- Estimation of Lateral Resolution in Scanning Hot Electron Microscopy
- Wet Chemical Etching for Ultrafine Periodic Structure: Rectangular InP Corrugations of 70 nm Pitch and 100 nm Depth
- Improvement in Gate Insulation in InP Hot Electron Transistors for High Transconductance and High Voltage Gain
- Shortening of Detection Time for Observation of Hot Electron Spatial Distribution by Scanning Hot Electron Microscopy
- Transient Response of the Aharonov-Bohm Effect