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Nanowire Josephson junctions in superconducting circuits
A. Bargerbos
QRD/Kouwenhoven Lab
Research output
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Thesis
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Dissertation (TU Delft)
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INIS
qubits
100%
nanowires
100%
josephson junctions
100%
quantum dots
66%
junctions
66%
spin
66%
probes
50%
microwave radiation
33%
magnetic fields
33%
phonons
33%
josephson effect
33%
applications
33%
space
33%
devices
33%
physics
33%
prediction
16%
dynamics
16%
islands
16%
host
16%
energy
16%
hybrids
16%
coupling
16%
metrology
16%
spectroscopy
16%
oxides
16%
losses
16%
bound state
16%
proposals
16%
inductance
16%
transport
16%
comparative evaluations
16%
nonlinear problems
16%
spin-orbit interaction
16%
mitigation
16%
quasi particles
16%
parity
16%
quantum computers
16%
investigations
16%
barriers
16%
phase transformations
16%
trapping
16%
superconductivity
16%
Material Science
Josephson Junction
100%
Electronic Circuit
100%
Nanowire
100%
Quantum Dot
80%
Probe
60%
Josephson Effect
40%
Weak Link
40%
Devices
40%
Microwave Spectroscopy
20%
Insulating Material
20%
Oxide Compound
20%
Superconductivity
20%
Characterization
20%
Conductor
20%
Physics
Quantum Dot
100%
Josephson Junction
100%
Utilization
20%
Microwave
20%
Josephson Effect
20%
Phonon
20%
Behavior
20%
Quasiparticle
10%
Phase Transition
10%
Coherence
10%
Condensed Matter Physics
10%
Physics
10%
Conductor
10%
Quantum Computer
10%
Parameter
10%
Spin-Orbit Interaction
10%
Superconductivity
10%