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Hybrid Josephson junction-based quantum devices in magnetic field
W. Uilhoorn
QRD/Kouwenhoven Lab
Research output
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Thesis
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Dissertation (TU Delft)
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INIS
architecture
11%
charges
33%
compatibility
22%
computers
11%
control
33%
coupling
11%
detection
11%
devices
100%
dynamics
11%
engineering
11%
errors
11%
graphene
22%
heating
22%
host
11%
hybrids
100%
indium arsenides
33%
josephson junctions
100%
junctions
11%
l-s coupling
11%
levels
11%
lifetime
11%
losses
11%
magnetic fields
100%
majorana spinors
44%
microwave radiation
44%
nanowires
44%
parity
22%
pulses
11%
quality factor
11%
quantum computers
22%
quantum computing
22%
quantum information
11%
quasi particles
22%
qubits
66%
radiations
11%
resonators
22%
scaling
11%
semiconductor materials
11%
space
11%
speed
11%
superconductivity
11%
temperature range 0273-0400 k
11%
thickness
11%
topology
11%
transmission lines
11%
traps
11%
tunneling
11%
voltage
22%
waveguides
11%
Material Science
Devices
50%
Electronic Circuit
50%
Field Research
25%
Graphene
50%
Josephson Junction
100%
Nanowire
100%
Quantum Device
100%
Resonator
50%
Semiconductor Material
25%
Superconductivity
25%
Temperature
25%
Waveguide
25%
Physics
Decoherence
11%
Detection
11%
Energetics
11%
Josephson Junction
100%
Microwave
44%
Quantum Computer
22%
Quantum Computing
22%
Quantum Dot
66%
Quantum Information
11%
Quasiparticle
22%
Resonator
22%
Semiconductor (Material)
11%
Shapes
11%
Speed
11%
Spin-Orbit Coupling
11%
Superconductivity
11%
Technology
22%
Waveguide
11%