Josephson tunnel junctions are proposed as efficient phase-tunable thermal rectifiers. The latter exploit the strong tem- perature dependence of the superconducting density of states and phase-dependence of heat currents flowing through Josephson junctions to operate. Remarkably, large heat rectification coefficients up to ~ 800% can potentially be achieved using conventional materials and standard fabrication methods. In addition, these devices allow for the in-situ fine tuning of the thermal rectification magnitude and direction
We discuss thermal transport through a Josephson junction in a time-dependent situation. We write th...
Coherent caloritronics, the thermal counterpart of coherent electronics, has drawn growing attention...
We propose a superconducting thermal memory device that exploits the thermal hysteresis in a flux-co...
We discuss heat transport through a Josephson tunnel junction under various bias conditions. We firs...
The control of thermal fluxes -- magnitude and direction, in mesoscale and nanoscale electronic circ...
We propose a low-temperature thermal rectifier consisting of a chain of three tunnel-coupled normal ...
Thermal diodes-devices that allow heat to flow preferentially in one direction-are one of the key to...
Two superconductors coupled by a weak link support an equilibrium Josephson electrical current that ...
A fundamental aspect of electronics is the ability to distribute a charge current among different te...
Macroscopic quantum phase coherence has one of its pivotal expressions in the Josephson effect, whic...
The conversion of the whole heat into work is impossible according to the second law of thermodynami...
Abstract We describe here the first experimental realization of a heat inter-ferometer, thermal coun...
We provide a brief and comprehensive overview over recent developments in the field of phase-coheren...
Since its recent foundation, phase-coherent caloritronics has sparkled continuous interest giving ri...
In this work, we review and expand recent theoretical proposals for the realization of electronic th...
We discuss thermal transport through a Josephson junction in a time-dependent situation. We write th...
Coherent caloritronics, the thermal counterpart of coherent electronics, has drawn growing attention...
We propose a superconducting thermal memory device that exploits the thermal hysteresis in a flux-co...
We discuss heat transport through a Josephson tunnel junction under various bias conditions. We firs...
The control of thermal fluxes -- magnitude and direction, in mesoscale and nanoscale electronic circ...
We propose a low-temperature thermal rectifier consisting of a chain of three tunnel-coupled normal ...
Thermal diodes-devices that allow heat to flow preferentially in one direction-are one of the key to...
Two superconductors coupled by a weak link support an equilibrium Josephson electrical current that ...
A fundamental aspect of electronics is the ability to distribute a charge current among different te...
Macroscopic quantum phase coherence has one of its pivotal expressions in the Josephson effect, whic...
The conversion of the whole heat into work is impossible according to the second law of thermodynami...
Abstract We describe here the first experimental realization of a heat inter-ferometer, thermal coun...
We provide a brief and comprehensive overview over recent developments in the field of phase-coheren...
Since its recent foundation, phase-coherent caloritronics has sparkled continuous interest giving ri...
In this work, we review and expand recent theoretical proposals for the realization of electronic th...
We discuss thermal transport through a Josephson junction in a time-dependent situation. We write th...
Coherent caloritronics, the thermal counterpart of coherent electronics, has drawn growing attention...
We propose a superconducting thermal memory device that exploits the thermal hysteresis in a flux-co...