Understanding heat transfer between a quantum system and its environment is of undisputed importance if reliable quantum devices are to be constructed. Here, we investigate the heat transfer between system and bath in non-Markovian open systems in the process of adiabatic speedup. Using the quantum state diffusion equation method, the heat current, energy current, and power are calculated during free evolution and under external control of the system. While the heat current increases with increasing system-bath coupling strength and bath temperature, it can be restricted by the non-Markovian nature of the bath. Without pulse control, the heat current is nearly equal to the energy current. On the other hand, with pulse control, the energy cu...
We study a minimal quantum Otto heat engine, where the working medium consists of an interacting few...
Protocols for non-adiabatic quantum control often require the use of classical time varying fields. ...
Device miniaturization allows for the improved speed and performance of modern-day computers compare...
We develop a general theory describing the thermodynamical behavior of open quantum systems coupled ...
In a quantum Stirling heat engine, the heat exchanged with two thermal baths is partly utilized for ...
In the quest for high-performance quantum thermal machines, looking for an optimal thermodynamic eff...
It is investigated whether non-Markovianity, i.e., the memory effects resulting from the coupling of...
We introduce a generalized approach to characterize the non-Markovianity of quantum dynamical maps v...
We investigate the influence of environment noise on the control cost and the quantum speed limit ti...
One of the challenges of adiabatic control theory is the proper inclusion of the effects of dissipat...
In this paper, we investigate the strong coupling quantum thermodynamics of the hybrid quantum syste...
Recent experiments at the nanoscales confirm that thermal rectifiers, the thermal equivalent of elec...
Funding: We acknowledge funding from the European Research Council under the European Union’s Horizo...
A key concept in quantum thermodynamics is extractable work, which specifies the maximum amount of w...
Precise and efficient control of quantum systems is essential to perform quantum information process...
We study a minimal quantum Otto heat engine, where the working medium consists of an interacting few...
Protocols for non-adiabatic quantum control often require the use of classical time varying fields. ...
Device miniaturization allows for the improved speed and performance of modern-day computers compare...
We develop a general theory describing the thermodynamical behavior of open quantum systems coupled ...
In a quantum Stirling heat engine, the heat exchanged with two thermal baths is partly utilized for ...
In the quest for high-performance quantum thermal machines, looking for an optimal thermodynamic eff...
It is investigated whether non-Markovianity, i.e., the memory effects resulting from the coupling of...
We introduce a generalized approach to characterize the non-Markovianity of quantum dynamical maps v...
We investigate the influence of environment noise on the control cost and the quantum speed limit ti...
One of the challenges of adiabatic control theory is the proper inclusion of the effects of dissipat...
In this paper, we investigate the strong coupling quantum thermodynamics of the hybrid quantum syste...
Recent experiments at the nanoscales confirm that thermal rectifiers, the thermal equivalent of elec...
Funding: We acknowledge funding from the European Research Council under the European Union’s Horizo...
A key concept in quantum thermodynamics is extractable work, which specifies the maximum amount of w...
Precise and efficient control of quantum systems is essential to perform quantum information process...
We study a minimal quantum Otto heat engine, where the working medium consists of an interacting few...
Protocols for non-adiabatic quantum control often require the use of classical time varying fields. ...
Device miniaturization allows for the improved speed and performance of modern-day computers compare...