BEGIN:VCALENDAR VERSION:2.0 PRODID:-//Talks.cam//talks.cam.ac.uk// X-WR-CALNAME:Talks.cam BEGIN:VEVENT SUMMARY:Non-reciprocal active matter across the scales - Ramin Golestanian (MPI &\; Oxford) DTSTART:20231005T130000Z DTEND:20231005T140000Z UID:TALK203986@talks.cam.ac.uk CONTACT:Bo Peng DESCRIPTION:Ramin Golestanian\n\nMax Planck Institute for Dynamics and Sel f-Organization\, Göttingen\n\nRudolf Peierls Centre for Theoretical Physi cs\, University of Oxford\n\n \n\nBroken action-reaction symmetry has been recently explored in active matter in the context of nonequilibrium phore tic interactions between catalytically active colloids and enzymes [1]\, a nd shown to lead formation of self-propelled active molecules that break t ime-reversal symmetry [2]\, oscillating active complexes that break time-t ranslation symmetry [3]\, chiral bound-states [4]\, and active phase separ ation with specified stoichiometry [5\, 6]. Non-reciprocal interactions ha ve been found to lead to rich physical phenomena involving various forms o f spontaneous symmetry-breaking in other related nonequilibrium contexts [ 7\, 8]. Recent applications of non-reciprocal active matter have revealed exotic behaviour such as the appearance of effervescent travelling pattern s [9] and shape-shifting multifarious self-organization [10]\, spontaneous escape of kinetic barriers [11]\, dynamical pattern formation in quorum-s ensing active matter [12]\, as well as implications of the physics of non- reciprocal interactions on the origin of life [13\,14\,15].\n\n \n\nRefere nces\n\n[1] R. Golestanian\, Lecture Notes of the 2018 Les Houches Summer School (OUP\, 2022)\; arXiv:1909.03747 (2019)\n\n[2] R. Soto and R. Golest anian\, PRL 112\, 068301 (2014)\n\n[3] R. Soto and R. Golestanian\, PRE 91 \, 052304 (2015)\n\n[4] S. Saha\, S. Ramaswamy\, and R. Golestanian\, NJP 21\, 063006 (2019)\n\n[5] J. Agudo-Canalejo and R. Golestanian\, PRL 123\, 018101 (2019)\n\n[6] V. Ouazan-Reboul\, J. Agudo-Canalejo\, and R. Golest anian\, EPJE 44\, 113 (2021)\n\n[7] N. Uchida and R. Golestanian\, PRL 104 \, 178103 (2010)\n\n[8] S. Saha\, J. Agudo-Canalejo\, and R. Golestanian\, PRX 10\, 041009 (2020)\n\n[9] S. Saha and R. Golestanian\, arXiv:2208.149 85 (2022)\n\n[10] S. Osat and R. Golestanian\, Nature Nanotechnology 18\, 79 (2023)\n\n[11] S. Osat\, J. Metson\, M. Kardar\, and R. Golestanian\, a rXiv:2309.00562 (2023)\n\n[12] Y. Duan\, J. Agudo-Canalejo\, R. Golestania n\, and B. Mahault\, arXiv:2306.07904 (2023)\n\n[13] V. Ouazan-Reboul\, J. Agudo-Canalejo\, and R. Golestanian\, Nat. Commun. 14\, 4496 (2023)\n\n[1 4] V. Ouazan-Reboul\, R. Golestanian\, and J. Agudo-Canalejo\, PRL 131\, 1 28301 (2023)\n\n[15] V. Ouazan-Reboul\, R. Golestanian\, and J. Agudo-Cana lejo\, arXiv:2305.05472 (2023) LOCATION:TCM Seminar Room END:VEVENT END:VCALENDAR