101 research outputs found
Quantum entropy production in phase space
A fluctuation theorem for the nonequilibrium entropy production in quantum
phase space is derived, which enables the consistent thermodynamic description
of arbitrary quantum systems, open and closed. The new treatment naturally
generalizes classical results to the quantum domain. As an illustration the
harmonic oscillator dragged through a thermal bath is solved numerically.
Finally, the significance of the new approach is discussed in detail, and the
phase space treatment is opposed to the two time energy measurement approach.Comment: 6 pages, 2 figures; published versio
Efficiency of harmonic quantum Otto engines at maximal power
Recent experimental breakthroughs produced the first nano heat engines that
have the potential to harness quantum resources. An instrumental question is
how their performance measures up against the efficiency of classical engines.
For single ion engines undergoing quantum Otto cycles it has been found that
the efficiency at maximal power is given by the Curzon-Ahlborn efficiency. This
is rather remarkable as the Curzon-Alhbron efficiency was originally derived
for endoreversible Carnot cycles. Here, we analyze two examples of
endoreversible Otto engines within the same conceptual framework as Curzon and
Ahlborn's original treatment. We find that for endoreversible Otto cycles in
classical harmonic oscillators the efficiency at maximal power is, indeed,
given by the Curzon-Ahlborn efficiency. However, we also find that the
efficiency of Otto engines made of quantum harmonic oscillators is
significantly larger.Comment: 6 pages, 2 figure
Quantum speed limit for non-Markovian dynamics
We derive a Margolus-Levitin type bound on the minimal evolution time of an
arbitrarily driven open quantum system. We express this quantum speed limit
time in terms of the operator norm of the nonunitary generator of the dynamics.
We apply these results to the damped Jaynes-Cummings model and demonstrate that
the corresponding bound is tight. We further show that non-Markovian effects
can speed up quantum evolution and therefore lead to a smaller quantum speed
limit time.Comment: 5 pages, 2 figures; Corrected inconsistency in the derivation;
improved bound
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