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Magnetically controlled quantum thermal devices via three nearest-neighbor coupled spin-1/2 systems. | LitMetric

AI Article Synopsis

  • A new quantum thermal device utilizing three spin-1/2 systems coupled to each other is proposed, which can be controlled by adjusting an external magnetic field.
  • This device acts as a thermal modulator, capable of regulating heat flow based on the magnetic field's orientation, effectively blocking or allowing heat transport between two thermal reservoirs.
  • Moreover, the introduction of a third thermal reservoir and manipulation of the initial state can enhance the device's capabilities, allowing for improved control and amplification of heat current, similar to a transistor's functions.

Article Abstract

A quantum thermal device based on three nearest-neighbor coupled spin-1/2 systems controlled by the magnetic field is proposed. We systematically study the steady-state thermal behaviors of the system. When the two terminals of our system are in contact with two thermal reservoirs, respectively, the system behaves as a perfect thermal modulator that can manipulate heat current from zero to specific values by adjusting magnetic-field direction over different parameter ranges, since the longitudinal magnetic field can completely block the heat transport. Significantly, the modulator can also be achieved when a third thermal reservoir perturbs the middle spin. We also find that the transverse field can induce the system to separate into two subspaces in which neither steady-state heat current vanishes, thus providing an extra level of control over the heat current through the manipulation of the initial state. In addition, the performance of this device as a transistor can be enhanced by controlling the magnetic field, achieving versatile amplification behaviors, in particular substantial amplification factors.

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Source
http://dx.doi.org/10.1103/PhysRevE.109.014142DOI Listing

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