A general hybrid quantum TUR for two-terminal N-S junctions in the Andreev regime that is never violated, saturates only at vanishing current, and relates to the normal bound by replacing e with 2e.
Title resolution pending
3 Pith papers cite this work. Polarity classification is still indexing.
3
Pith papers citing it
fields
cond-mat.mes-hall 3representative citing papers
Coulomb interactions renormalize Andreev resonances and suppress coherence in NS quantum dots, producing a pronounced drop in current precision and eliminating quantum TUR violations while the hybrid bound holds.
Step-function transmissions in potential barriers reach within 15% of ideal quantum thermoelectric efficiency at finite power outputs and outperform Lorentzian transmissions from quantum dots, particularly when phonons are present.
citing papers explorer
-
Quantum thermodynamic uncertainty relation and macroscopic superconducting coherence
A general hybrid quantum TUR for two-terminal N-S junctions in the Andreev regime that is never violated, saturates only at vanishing current, and relates to the normal bound by replacing e with 2e.
-
Current precision in interacting hybrid Normal-Superconducting systems
Coulomb interactions renormalize Andreev resonances and suppress coherence in NS quantum dots, producing a pronounced drop in current precision and eliminating quantum TUR violations while the hybrid bound holds.
-
Potential barriers are nearly-ideal quantum thermoelectrics at finite power output
Step-function transmissions in potential barriers reach within 15% of ideal quantum thermoelectric efficiency at finite power outputs and outperform Lorentzian transmissions from quantum dots, particularly when phonons are present.