Entropy (Nov 2013)

Energy Transfer Using Unitary Transformations

  • Winny O'Kelly de Galway,
  • Jan Naudts

DOI
https://doi.org/10.3390/e15125121
Journal volume & issue
Vol. 15, no. 12
pp. 5121 – 5143

Abstract

Read online

We study the unitary time evolution of a simple quantum Hamiltonian describing two harmonic oscillators coupled via a three-level system. The latter acts as an engine transferring energy from one oscillator to the other and is driven in a cyclic manner by time-dependent external fields. The S-matrix (scattering matrix) of the cycle is obtained in analytic form. The total number of quanta contained in the system is a conserved quantity. As a consequence, the spectrum of the S-matrix is purely discrete, and the evolution of the system is quasi-periodic. The explicit knowledge of the S-matrix makes it possible to do accurate numerical evaluations of the time-dependent wave function. They confirm the quasi-periodic behavior. In particular, the energy flows back and forth between the two oscillators in a quasi-periodic manner.

Keywords