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Quantum transport in nanowire networks
Michiel de Moor
QRD/Kouwenhoven Lab
Research output
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Thesis
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Dissertation (TU Delft)
391
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INIS
transport
100%
nanowires
100%
qubits
83%
majorana spinors
66%
semiconductor materials
50%
quantum computers
50%
l-s coupling
33%
superconductors
33%
hybrids
33%
coupling
33%
noise
33%
topology
33%
electric fields
33%
indium antimonides
16%
electrostatics
16%
locality
16%
external magnetic fields
16%
simulation
16%
information
16%
quantum states
16%
errors
16%
environment
16%
lande factor
16%
superconductivity
16%
Engineering
Couplings
66%
Experiments
66%
Quantum Computer
50%
Semiconductor
50%
Environmental Noise
16%
Quantum State
16%
Electrical Measurement
16%
External Magnetic Field
16%
Electric Field
16%
Periodic Time
16%
Error
16%
Limitations
16%
Functionality
16%
External Electric Field
16%
Superconductor
16%
Building Block
16%
High Quality
16%
Physics
Quantum Transport
100%
Quantum Dot
83%
Quantum Computer
50%
Spin-Orbit Coupling
33%
Electric Fields
33%
Calculation
16%
Quantum Technology
16%
Electrostatics
16%
Environment
16%
Superconductivity
16%
Material Science
Nanowire
100%
Semiconductor Material
50%
Superconducting Material
33%
Materials Property
16%
Indium
16%
Nanofabrication Process
16%
Hybrid Material
16%
Superconductivity
16%