题 目: Defect motility in pulsating active matter
主讲人:Étienne Fodor 副教授
单 位:卢森堡大学
时 间:2025年11月12日 18:00
ZOOM:713 668 5659
ID密码:123456
摘 要:When heartbeats become irregular due to tachycardia or fibrillation, spiral waves and motile defects emerge at the surface of cardiac tissues [1].Capturing the emergence of such defects in confluent tissues without any cellular flow is a theoretical challenge which has recently been tackled by models of actively deforming particles [2-5].In dense assemblies where particles are subject to individual pulsation of their sizes,the interplay between synchronization and repulsion can produce deformation waves resembling those observed in cardiac tissues. Combining particle-based and hydrodynamic approaches, we examine the statistics of defects in the collective deformation of particles.We rationalize the emergence of defect motility as stemming from the breakdown of time-reversal and spatial symmetries. Specifically, we provide analytical predictions for the deformation profile near the defect core to quantify the angular and translational velocities of defects. These results lead to identifying the dominant mechanism underlying the crossover between various deformation patterns in contractile tissues,with broader implications for understanding similar phenomena in other active systems.[1] A. Karma, Annu. Rev. Condens. Matter Phys., 4, 313-337 (2013).[2] Y. Zhang, É. Fodor, Phys. Rev. Lett., 131, 238302 (2023).[3] A. Manacorda, É. Fodor, Phys. Rev. E, 111, L053401 (2025).[4] W. Piñeros, É. Fodor, Phys. Rev. Lett., 134, 038301 (2025).[5] T. Banerjee, et al., arXiv:2407.19955 (2024); arXiv:2509.19024 (2025).
简 介:Étienne Fodor is an Assistant Professor in Physics at University of Luxembourg and obtained his PhD in Physics at Université Paris Diderot, France, in 2016. He has been a postdoc at Fonds National de la Recherche, Luxembourg, an Oppenheimer Research Fellow at University of Cambridge, UK, a Research Fellow at St Catharine's College, Cambridge, UK, and a postdoc at DAMTP, University of Cambridge, UK.
