Non-reciprocal phase transitions in polariton condensates
APA
(2024). Non-reciprocal phase transitions in polariton condensates. SciVideos. https://youtu.be/8yzVa5THCoc
MLA
Non-reciprocal phase transitions in polariton condensates. SciVideos, Jul. 22, 2024, https://youtu.be/8yzVa5THCoc
BibTex
@misc{ scivideos_ICTS:29164,
doi = {},
url = {https://youtu.be/8yzVa5THCoc},
author = {},
keywords = {},
language = {en},
title = {Non-reciprocal phase transitions in polariton condensates},
publisher = {},
year = {2024},
month = {jul},
note = {ICTS:29164 see, \url{https://scivideos.org/icts-tifr/29164}}
}
Abstract
Spontaneous synchronization is at the core of many natural phenomena. Your heartbeat is maintained because cells contract in a synchronous wave; some bird species synchronize their motion into flocks; quantum synchronization is responsible for laser action and superconductivity. The transition to synchrony, or between states of different patterns of synchrony, is a dynamical phase transition that has much in common with conventional phase transitions of state – for example solid to liquid, or magnetism – but the striking feature of driven dynamical systems is that the components are “active”. Consequently quantum systems with dissipation and decay are described by non-Hermitian Hamiltonians, and active matter can abandon Newton’s third law and have non-reciprocal interactions. This substantially changes the character of many-degree-of-freedom dynamical phase transitions between steady states and the critical phenomena in their vicinity, since the critical point is an “exceptional point...