We present a quantum heat switch based on coupled superconducting qubits, connected to two LC resonators that are terminated by resistors providing two heat baths. To describe the system, we use a standard second order master equation with respect to coupling to the baths. We find that this system can act as an efficient heat switch controlled by the applied magnetic flux. The flux influences the energy level separations of the system, and under some conditions, the finite coupling of the qubits enhances the transmitted power between the two baths, by an order of magnitude under realistic conditions. At the same time, the bandwidth at maximum power of the switch formed of the coupled qubits is narrowed.

Coupled qubits as a quantum heat switch / Karimi, B.; Pekola, J. P.; Michele, Campisi; Fazio, R.. - In: QUANTUM SCIENCE AND TECHNOLOGY. - ISSN 2058-9565. - ELETTRONICO. - 2:(2017), pp. 0-0. [10.1088/2058-9565/aa8330]

Coupled qubits as a quantum heat switch

Michele Campisi;
2017

Abstract

We present a quantum heat switch based on coupled superconducting qubits, connected to two LC resonators that are terminated by resistors providing two heat baths. To describe the system, we use a standard second order master equation with respect to coupling to the baths. We find that this system can act as an efficient heat switch controlled by the applied magnetic flux. The flux influences the energy level separations of the system, and under some conditions, the finite coupling of the qubits enhances the transmitted power between the two baths, by an order of magnitude under realistic conditions. At the same time, the bandwidth at maximum power of the switch formed of the coupled qubits is narrowed.
2017
2
0
0
Karimi, B.; Pekola, J. P.; Michele, Campisi; Fazio, R.
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Utilizza questo identificatore per citare o creare un link a questa risorsa: https://hdl.handle.net/2158/1105354
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