Nanogap patterning on NbTi thin-film resonators decreases TC by 1.5 K and raises dfres/dT to 62 MHz/K at 4.2 K, enhancing cryogenic thermometry sensitivity by 10x.
Title resolution pending
2 Pith papers cite this work. Polarity classification is still indexing.
2
Pith papers citing it
citation-role summary
background 1
citation-polarity summary
roles
background 1polarities
background 1representative citing papers
Usadel-equation analysis of DC-biased Al resonators predicts a suppressed density-of-states gap that lowers the detection threshold for 50-120 GHz kinetic inductance detectors.
citing papers explorer
-
Surface nanostructuring of NbTi superconducting thin-film resonators for enhanced cryogenic thermometry
Nanogap patterning on NbTi thin-film resonators decreases TC by 1.5 K and raises dfres/dT to 62 MHz/K at 4.2 K, enhancing cryogenic thermometry sensitivity by 10x.
-
Suppressed-gap millimetre wave kinetic inductance detectors using DC-bias current
Usadel-equation analysis of DC-biased Al resonators predicts a suppressed density-of-states gap that lowers the detection threshold for 50-120 GHz kinetic inductance detectors.