Add to ORKGWe propose a refrigeration scheme in a mesoscopic superconductor-quantum dot hybrid device. The setup can significantly cool down a normal metal coupled to the device by applying a bias voltage across the system. We demonstrate that the cooling power can be as large as 0.05$\Delta_0^2/h$ where $\Delta_0$ is the absolute value of superconducting order parameter. In contrast to previous proposals, our device operates without any magnetic elements such as ferromagnetic reservoirs or Zeeman splittings. The refrigeration scheme works over a broad parameter range and can be optimized by tuning system parameters such as level position and bias voltage. Our theory self-consistently determines the temperature drop of the normal reservoir in the nonl...
Periodically driven quantum dots can act as counterparts of cyclic thermal machines at the nanoscale...
We propose a minimal model of a Coulomb coupled fermionic quantum dot thermal diode that can act as ...
Abstract The recent progress in direct active cooling of the quantum-electric degrees of freedom in...
We discuss a quantum thermal machine that generates power from a thermally driven double quantum dot...
We review the recent progress in direct active cooling of the quantum-electric degrees freedom in en...
For scalable solid-state quantum technologies, there appears to be no alternative to the temperature...
We demonstrate quantum-limited electronic refrigeration of a metallic island in a low-temperature mi...
Studies of two-dimensional electron gases (2DEGs) in semiconductors form an active and productive fi...
We propose a highly efficient thermoelectric diode device built from the coupling of a quantum dot w...
Abstract. A superconductor with a gap in the density of states or a quantum dot with discrete energy...
Fragile quantum effects such as single electron charging in quantum dots or macroscopic coherent tun...
Microrefrigerators that operate in the subkelvin regime are key devices in quantum technology. A wel...
We present an experimental realization of a Coulomb blockade refrigerator (CBR) based on a single-el...
The recent progress in direct active cooling of the quantum-electric degrees of freedom in engineere...
Optimal engine performances are accomplished by quantum effects. Here we explore two routes towards ...
Periodically driven quantum dots can act as counterparts of cyclic thermal machines at the nanoscale...
We propose a minimal model of a Coulomb coupled fermionic quantum dot thermal diode that can act as ...
Abstract The recent progress in direct active cooling of the quantum-electric degrees of freedom in...
We discuss a quantum thermal machine that generates power from a thermally driven double quantum dot...
We review the recent progress in direct active cooling of the quantum-electric degrees freedom in en...
For scalable solid-state quantum technologies, there appears to be no alternative to the temperature...
We demonstrate quantum-limited electronic refrigeration of a metallic island in a low-temperature mi...
Studies of two-dimensional electron gases (2DEGs) in semiconductors form an active and productive fi...
We propose a highly efficient thermoelectric diode device built from the coupling of a quantum dot w...
Abstract. A superconductor with a gap in the density of states or a quantum dot with discrete energy...
Fragile quantum effects such as single electron charging in quantum dots or macroscopic coherent tun...
Microrefrigerators that operate in the subkelvin regime are key devices in quantum technology. A wel...
We present an experimental realization of a Coulomb blockade refrigerator (CBR) based on a single-el...
The recent progress in direct active cooling of the quantum-electric degrees of freedom in engineere...
Optimal engine performances are accomplished by quantum effects. Here we explore two routes towards ...
Periodically driven quantum dots can act as counterparts of cyclic thermal machines at the nanoscale...
We propose a minimal model of a Coulomb coupled fermionic quantum dot thermal diode that can act as ...
Abstract The recent progress in direct active cooling of the quantum-electric degrees of freedom in...