Dynamically assisted tunneling in the impulse regime
Quantum Physics
2021-08-18 v1
Abstract
We study the enhancement of tunneling through a potential barrier by a time-dependent electric field with special emphasis on pulse-shaped vector potentials such as . In addition to the known effects of pre-acceleration and potential deformation already present in the adiabatic regime, as well as energy mixing in analogy to the Franz-Keldysh effect in the non-adiabatic (impulse) regime, the pulse can enhance tunneling by ``pushing'' part of the wave-function out of the rear end of the barrier. Besides the natural applications in condensed matter and atomic physics, these findings could be relevant for nuclear fusion, where pulses with and peak field strengths of might enhance tunneling rates significantly.
Cite
@article{arxiv.2102.07474,
title = {Dynamically assisted tunneling in the impulse regime},
author = {Christian Kohlfürst and Friedemann Queisser and Ralf Schützhold},
journal= {arXiv preprint arXiv:2102.07474},
year = {2021}
}