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Suppressing the Kibble-Zurek mechanism by a symmetry-violating bias

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arxiv 1906.11453 v2 pith:2FEW3SHO submitted 2019-06-27 cond-mat.other gr-qc

Suppressing the Kibble-Zurek mechanism by a symmetry-violating bias

classification cond-mat.other gr-qc
keywords biasformationkibble-zurekphasefieldlengthmechanismtransitions
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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The formation of topological defects in continuous phase transitions is driven by the Kibble-Zurek mechanism. Here we study the formation of single- and half-quantum vortices during transition to the polar phase of $^3$He in the presence of a symmetry-breaking bias provided by the applied magnetic field. We find that vortex formation is suppressed exponentially when the length scale associated with the bias field becomes smaller than the Kibble-Zurek length. We thus demontrate an experimentally feasible shortcut to adiabaticity -- an important aspect for further understanding of phase transitions as well as for engineering applications such as quantum computers or simulators.

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  1. Dynamical criterion for biased domain-wall formation

    hep-ph 2026-06 unverdicted novelty 6.0

    Derives dynamical criterion for biased domain wall formation by evaluating p_fv at freeze-out temperature T_fo, producing stricter condition than conventional static threshold and consistency condition T_fo > T_ann.