Quantum boomerang effect in systems without time reversal symmetry

Published 21 Mar 2022 in cond-mat.dis-nn, cond-mat.quant-gas, and quant-ph | (2203.11019v2)

Abstract: In an Anderson localized system, a quantum particle with a nonzero initial velocity returns, on average, to its origin. This recently discovered behavior is known as the quantum boomerang effect. Time reversal invariance was initially thought to be a necessary condition for the existence of this phenomenon. We theoretically analyze the impact of the symmetry breaking on the phenomenon using a one-dimensional system with a spin-orbit coupling and show that the time reversal invariance is not necessary for the boomerang effect to occur.

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Quantum boomerang effect in systems without time reversal symmetry

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