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Quantum Algorithms
Ultracold quantum wires with localized losses: many-body quantum Zeno effect
arXiv
Authors: Heinrich Fröml, Christopher Muckel, Corinna Kollath, Alessio Chiocchetta, Sebastian Diehl
Year
2019
Paper ID
15332
Status
Preprint
Abstract Read
~2 min
Abstract Words
166
Citations
N/A
Abstract
We study a one-dimensional system of interacting spinless fermions subject to a localized loss, where the interplay of gapless quantum fluctuations and particle interactions leads to an incarnation of the quantum Zeno effect of genuine many-body nature. This model constitutes a non-equilibrium counterpart of the paradigmatic Kane-Fisher potential barrier problem, and it exhibits strong interaction effects due to the gapless nature of the system. As a central result, we show that the loss probability is strongly renormalized near the Fermi momentum as a realization of the quantum Zeno effect, resulting in a suppression of the emission of particles at the Fermi level. This is reflected in the structure of the particle momentum distribution, exhibiting a peak close to the Fermi momentum. We substantiate these findings by three complementary approaches: a real-space renormalization group of a general microscopic continuum model, a dynamical Hartree-Fock numerical analysis of a microscopic model on a lattice, and a renormalization group analysis based on an effective Luttinger liquid description incorporating mode-coupling effects.
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- It adds a 2019 reference point for readers tracking recent quantum research.
- We study a one-dimensional system of interacting spinless fermions subject to a localized loss, where the interplay of gapless quantum fluctuations and particle interactions...
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