Dynamics of O(2) excitations in a non-reciprocal medium

Abstract

We investigate emergent dynamics due to non-reciprocity in the O(2) model. The lattice XY model, where non-reciprocity stems from vision cone like couplings, can be described by a continuum description in which non-reciprocity translates into a new term depending on the rotational of the orientation field. We argue that non-reciprocity is akin to activity and we highlight the connection between our hydrodynamic equation and the constant density Toner-Tu framework. The active force advects and reshapes patterns, a generic feature found in many non-reciprocal systems. We show how 1d excitations in the non-reciprocal O(2) model can be described by a generalized Burgers equation, derived from our continuum model. We then extend the results to 2d perturbations. As such, we establish the first principles of excitation trajectory control in a non-reciprocal O(2) medium. Concretely, we explain how tuning the degree of non-reciprocity and the orientation of the background medium impacts the time evolution of excitations. We also showcase how initially different excitations lead to very different dynamical behavior. Non-reciprocity also affects the stability of defect-free excitations with non-zero winding numbers and, unlike in its equilibrium O(2) counterpart, enables the system, above a certain threshold, to relax to its ground state.

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