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Non-Hermitian dynamics and non-reciprocity of optically coupled nanoparticles

Physics

Non-Hermitian dynamics and non-reciprocity of optically coupled nanoparticles

M. Reisenbauer, H. Rudolph, et al.

This groundbreaking research investigates the non-Hermitian dynamics of optically coupled nanoparticles, revealing fascinating phenomena such as parity-time symmetry breaking and a stunning mechanical lasing transition. The team, including authors from the Vienna Center for Quantum Science and Technology and the University of Duisburg-Essen, delves into controllable multi-particle effects, paving the way for exciting advancements in quantum technology.

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~3 min • Beginner • English
Abstract
Non-Hermitian dynamics, as observed in photonic, atomic, electrical and optomechanical platforms, holds great potential for sensing applications and signal processing. Recently, fully tuneable non-reciprocal optical interaction has been demonstrated between levitated nanoparticles. Here we use this tunability to investigate the collective non-Hermitian dynamics of two non-reciprocally and nonlinearly interacting nanoparticles. We observe parity-time symmetry breaking and, for sufficiently strong coupling, a collective mechanical lasing transition in which the particles move along stable limit cycles. This work opens up a research avenue of non-equilibrium multi-particle collective effects, tailored by the dynamic control of individual sites in a tweezer array.
Publisher
Nature Physics
Published On
Jul 25, 2024
Authors
Manuel Reisenbauer, Henning Rudolph, Livia Egyed, Klaus Hornberger, Anton V. Zasedatelev, Murad Abuzarli, Benjamin A. Stickler, Uroš Delić
DOI
https://doi.org/10.1038/s41567-024-02589-8
Tags
non-Hermitian dynamics
optically coupled nanoparticles
parity-time symmetry breaking
mechanical lasing
multi-particle effects

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