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Quantum effects of superconducting phase
J. Erdmanis
QN/Nazarov Group
Research output
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Thesis
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Dissertation (TU Delft)
150
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INIS
electrons
100%
superconductors
60%
holes
60%
energy
40%
nanostructures
40%
applications
40%
spectra
40%
excitation
40%
space
40%
superconductivity
40%
proximity effect
20%
zones
20%
order parameters
20%
phonons
20%
host
20%
interfaces
20%
phase space
20%
metals
20%
condensates
20%
bound state
20%
slip
20%
topology
20%
josephson junctions
20%
physics
20%
reflection
20%
quantum computing
20%
periodicity
20%
charges
20%
Material Science
Superconducting Material
100%
Nanocrystalline Material
66%
Superconductivity
66%
Josephson Junction
33%
Metal
33%
Heterojunction
33%
Conductor
33%
Physics
Utilization
40%
Superconductivity
40%
Quantum Technology
20%
Condensed Matter Physics
20%
Attraction
20%
Periodic Variation
20%
Phonon
20%
Quantum Computing
20%
Region
20%
Nanostructure
20%
Condensate
20%
Josephson Junction
20%
Conductor
20%
Parameter
20%
Standard
20%