Experimental demonstration of spontaneous chirality in a nonlinear microresonator
Chirality is an asymmetric property widely found in nature. Here, we propose and
demonstrate experimentally the spontaneous emergence of chirality in an on-chip ultrahigh …
demonstrate experimentally the spontaneous emergence of chirality in an on-chip ultrahigh …
Spontaneous mirror-symmetry breaking in coupled photonic-crystal nanolasers
Multi-cavity photonic systems, also known as photonic molecules, exhibit multi-well
potentials that may prove useful for advanced quantum and nonlinear optics,,,. A key …
potentials that may prove useful for advanced quantum and nonlinear optics,,,. A key …
[HTML][HTML] Symmetry breaking of counter-propagating light in a nonlinear resonator
Spontaneous symmetry breaking is a concept of fundamental importance in many areas of
physics, underpinning such diverse phenomena as ferromagnetism, superconductivity …
physics, underpinning such diverse phenomena as ferromagnetism, superconductivity …
[图书][B] Spontaneous symmetry breaking, self-trapping, and Josephson oscillations
BA Malomed - 2013 - Springer
Properties of collective excitations in physical systems are determined, in generic situations,
by the interplay of a few fundamental ingredients: spatial dimension, external potential …
by the interplay of a few fundamental ingredients: spatial dimension, external potential …
Quantum entanglement in the spatial-symmetry-breaking phase transition of a driven-dissipative Bose-Hubbard dimer
W Casteels, C Ciuti - Physical Review A, 2017 - APS
We theoretically explore the quantum correlation properties of a dissipative Bose-Hubbard
dimer in the presence of a coherent drive. In particular, we focus on the regime where the …
dimer in the presence of a coherent drive. In particular, we focus on the regime where the …
Spontaneous symmetry breaking in a nonlinear double-well structure
T Mayteevarunyoo, BA Malomed, G Dong - Physical Review A—Atomic …, 2008 - APS
We propose a model of a nonlinear double-well potential (NDWP), alias a double-well
pseudopotential, with the objective to study an alternative implementation of the …
pseudopotential, with the objective to study an alternative implementation of the …
Spontaneous symmetry breaking in plasmon lattice lasers
N de Gaay Fortman, R Kolkowski, D Pal… - Science …, 2024 - science.org
Spontaneous symmetry breaking (SSB) is key for our understanding of phase transitions
and the spontaneous emergence of order. In this work, we report that, for a two-dimensional …
and the spontaneous emergence of order. In this work, we report that, for a two-dimensional …
Dynamics of spin‐dependent polariton–polariton interactions in two‐dimensional layered halide organic perovskite microcavities
TY Liu, H Wang, MS Song, LY Zhao… - Laser & Photonics …, 2022 - Wiley Online Library
Half‐light and half‐matter exciton polaritons have demonstrated profound impacts on
coherent quantum phenomena. Two‐dimensional (2D) organic− inorganic perovskite …
coherent quantum phenomena. Two‐dimensional (2D) organic− inorganic perovskite …
The driven-dissipative Bose–Hubbard dimer: phase diagram and chaos
A Giraldo, B Krauskopf, NGR Broderick… - New Journal of …, 2020 - iopscience.iop.org
We present the phase diagram of the mean-field driven-dissipative Bose–Hubbard dimer
model. For a dimer with repulsive on-site interactions (U> 0) and coherent driving, we prove …
model. For a dimer with repulsive on-site interactions (U> 0) and coherent driving, we prove …
[HTML][HTML] Temporal coupled-mode theory in nonlinear resonant photonics: From basic principles to contemporary systems with 2D materials, dispersion, loss, and gain
Temporal coupled-mode theory (CMT) is an acclaimed and widely used theoretical
framework for modeling the continuous-wave response and temporal dynamics of any …
framework for modeling the continuous-wave response and temporal dynamics of any …