A Triple Quantum Dot in a Single Wall Carbon Nanotube
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概要
- 論文の詳細を見る
- 2007-09-19
著者
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Hayashi Toshiaki
Ntt Basic Research Laboratories Ntt Corporation
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FUJISAWA Toshimasa
NTT Basic Research Laboratories, NTT Corporation
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Lindelof Poul
Nano-science Center Niels Bohr Institute Uninversity Of Copenhagen
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GROVE-RASMUSSEN Kasper
NTT Basic Research Laboratories, NTT Corporation
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JORGENSEN Henrik
Nano-Science Center, Niels Bohr Institute, University of Copenhagen
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Fujisawa Toshimasa
Ntt Basic Research Laboratories
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Jorgensen Henrik
Nano-science Center Niels Bohr Institute University Of Copenhagen
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Grove-rasmussen Kasper
Ntt Basic Research Laboratories Ntt Corporation
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HAYASHI Toshiaki
NTT Basic Research Laboratories, NTT Corporation
関連論文
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- Spin-conserved single-electron transport between Zeeman sublevels in a few-electron quantum dot (Special issue: Solid state devices and materials)
- Spin-conserved Single-electron Transport between Zeeman Sublevels in a Few-electron Quantum Dot
- Electrostatic coupling between two double-quantum dots studies by resonant tunneling current
- Long Spin Relaxation Time Observed in a Lateral Quantum Dot
- Multiple Photon Assisted Tunneling between Two Coupled Quantum Dots ( Quantum Dot Structures)
- 24pYT-2 Spin Blockade in the Cotunneling Regime through a Dobule Quantum Dot
- A Triple Quantum Dot in a Single Wall Carbon Nanotube
- Electrical Pump and Probe Measurements of a Quantum Dot in the Coulomb Blockade Regime
- Transport Properties of Modulation-Doped Structures Grown by Molecular Beam Epitaxy after Focused Ion Beam Implantation
- Resonant Tunneling Properties of Single Electron Transistors with a Novel Double-Gate Geometry
- Coherence Time of Nuclear Spins in GaAs Quantum Well Probed by Submicron-Scale All-Electrical Nuclear Magnetic Resonance Device
- Transmission Type RF Single Electron Transistor Operation of a Semiconductor Quantum Dot
- Transmission Type Rf Single Electron Transistor Operation of a Semiconductor Quantum Dot
- Quantum information devices based on semiconductor quantum dots
- Real-Time Observation of Charge States and Energy Relaxation in a Double Quantum Dot
- A Double Quantum Dot as an Artificial Two-Level System
- Time-Dependent Local Potential Induced by Scanning Gate Microscopy
- Spin-Conserved Single-Electron Transport between Zeeman Sublevels in a Few-Electron Quantum Dot
- Correlation Measurement of Time-Dependent Potentials in a Semiconductor Quantum Point Contact