Add to ORKGRecently, non-reciprocal systems have become a focus of growing interest. Examples occur in soft and active matter, but also in engineered quantum materials and neural (brain) networks. Here, we investigate the impact of non-reciprocity on the collective behavior of a system of (dry) chiral active matter. Specifically, we consider a mixture of "circle swimmers" with steric interactions and non-reciprocal alignment couplings. Based on hydrodynamic equations which we derive from a set of Langevin equations, we explore the interplay of non-reciprocity, finite size, and chirality. We first consider, as a reference, one-species systems with reciprocal couplings. Based on a linear stability analysis and numerical simulations, we here observe thre...
International audienceActive hydrodynamic theories are a powerful tool to study the emergent ordered...
Motile creatures are ubiquitous in the natural world. Spanning a broad range of length scales, they ...
We study the emergent behaviors of a population of swarming coupled oscillators, dubbed 'swarmalator...
We generalize the Vicsek model to describe the collective behavior of polar circle swimmers with loc...
Chiral symmetry breaking is ubiquitous in biological systems, from DNA to bacterial suspensions. A k...
We study a quantum trimer of coupled two-level systems beyond the single-excitation sector, where th...
Synchronization, the temporal coordination of coupled oscillators, allows fireflies to flash in unis...
We present a Brownian dynamics study of a 2d bath of active particles interacting among each other t...
Understanding how chiral active particles -- which self-propel and self-rotate -- interact with each...
Inspired by groups of animals and robots, we study the collective dynamics of large numbers of activ...
Active fluids are ubiquitous in nature, spanning both microscopic and macroscopic length scales. They...
Acknowledgements: J.T. acknowledges the financial support of ANR Thema. A.D. acknowledges an interna...
Collective states of inanimate particles self-assemble through physical interactions and thermal mot...
We study theoretically an active colloid whose polar axis of self-propulsion rotates to point parall...
Emergent non-reciprocal interactions violating Newton's third law are widespread in out-of-equilibri...
International audienceActive hydrodynamic theories are a powerful tool to study the emergent ordered...
Motile creatures are ubiquitous in the natural world. Spanning a broad range of length scales, they ...
We study the emergent behaviors of a population of swarming coupled oscillators, dubbed 'swarmalator...
We generalize the Vicsek model to describe the collective behavior of polar circle swimmers with loc...
Chiral symmetry breaking is ubiquitous in biological systems, from DNA to bacterial suspensions. A k...
We study a quantum trimer of coupled two-level systems beyond the single-excitation sector, where th...
Synchronization, the temporal coordination of coupled oscillators, allows fireflies to flash in unis...
We present a Brownian dynamics study of a 2d bath of active particles interacting among each other t...
Understanding how chiral active particles -- which self-propel and self-rotate -- interact with each...
Inspired by groups of animals and robots, we study the collective dynamics of large numbers of activ...
Active fluids are ubiquitous in nature, spanning both microscopic and macroscopic length scales. They...
Acknowledgements: J.T. acknowledges the financial support of ANR Thema. A.D. acknowledges an interna...
Collective states of inanimate particles self-assemble through physical interactions and thermal mot...
We study theoretically an active colloid whose polar axis of self-propulsion rotates to point parall...
Emergent non-reciprocal interactions violating Newton's third law are widespread in out-of-equilibri...
International audienceActive hydrodynamic theories are a powerful tool to study the emergent ordered...
Motile creatures are ubiquitous in the natural world. Spanning a broad range of length scales, they ...
We study the emergent behaviors of a population of swarming coupled oscillators, dubbed 'swarmalator...