Simulations of “tunnelling of the 3rd kind”

Simulations of “tunnelling of the 3rd kind”

We consider the phenomenon of ``tunnelling of the 3rd kind" \cite{third}, whereby a magnetic field may traverse a classically impenetrable barrier by pair creation of unimpeded quantum fermions. These propagate through the barrier and generate a magnetic field on the other side. We study this n...

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Bibliographic Details
Main Authors: Mou, Zong-Gang, Saffin, Paul M., Tognarelli, Paul, Tranberg, Anders
Format: Article
Published: Springer 2017
Subjects:
Lattice Quantum Field Theory; Nonperturbative Effects
Online Access:https://eprints.nottingham.ac.uk/44423/
Description
Summary:We consider the phenomenon of ``tunnelling of the 3rd kind" \cite{third}, whereby a magnetic field may traverse a classically impenetrable barrier by pair creation of unimpeded quantum fermions. These propagate through the barrier and generate a magnetic field on the other side. We study this numerically using quantum fermions coupled to a classical Higgs-gauge system, where we set up a magnetic field outside a box shielded by two superconducting barriers. We examine the magnitude of the internal magnetic field, and find agreement with existing perturbative results within a factor of two.

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