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Quantum suppression of superconductivity in nanowires
Alexey Bezryadin
Physics
Materials Research Lab
Micro and Nanotechnology Lab
Research output
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Contribution to journal
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Article
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peer-review
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Keyphrases
Nanowires
100%
Superconductivity
100%
Superconductor-insulator Transition
100%
Transport Measurements
33%
Fabrication Methods
33%
Thin Superconducting Film
33%
Coulomb Blockade
33%
Superconducting Nanowire
33%
Miniaturization
33%
Degree of Homogeneity
33%
Stanford University
33%
Metal Film
33%
Electronic Circuit
33%
Amorphous Alloy
33%
Long Wires
33%
Physica
33%
Thermal Fluctuations
33%
Superconducting Electronics
33%
Short Wire
33%
Superconducting Wire
33%
Suspended Carbon Nanotubes
33%
Crossover Behavior
33%
Molecular Templating
33%
Engineering
Superconductivity
100%
Superconductor
100%
Nanowire
100%
Carbon Nanotube
33%
Networks (Circuits)
33%
Fabrication Method
33%
Coulomb Blockade
33%
Thermal Fluctuation
33%
Material Science
Nanowire
100%
Superconductivity
100%
Superconducting Material
100%
Electronic Circuit
33%
Superconducting Film
33%
Carbon Nanotube
33%
Metal Film
33%
Amorphous Alloys
33%