#nonlinearphysics search results

To mark the transition of @APSphysics’ Topical Group on Statistical and Nonlinear Physics (@aps_dsnp) to a Division, this editorial details the core aspects of #StatisticalPhysics and #NonlinearPhysics and its role in emerging research areas. 🔗 go.aps.org/3Ji9oyg

The 28th Nonlinear Dynamics of Electronic Systems conference will take place from 16-18 September 2024 in #Graechen, Switzerland. Don’t miss this opportunity to meet experts in the field of nonlinear dynamics 👉 sites.google.com/view/ndes2024/… #NonlinearPhysics, #PhysicsConference

Finding regulatory modules of chemical reaction systems, Yuhei Yamauchi, Atsuki Hishida, Takashi Okada, and Atsushi Mochizuki @TheoBioYuhei #ChemicalPhysics #StatisticalPhysics #NonlinearPhysics go.aps.org/44BTN37

Probing dynamical sensitivity of a non-Kolmogorov-Arnold-Moser system through out-of-time-order correlators, Naga Dileep Varikuti, Abinash Sahu, Arul Lakshminarayan, and Vaibhav Madhok #NonlinearPhysics #Quantum go.aps.org/3vsUbna

Increased extinction probability of the Madden-Julian oscillation after about 27 days, Álvaro Corral, Mónica Minjares, and Marcelo Barreiro #ClimateScience #NonlinearPhysics go.aps.org/47dTEDx

Fast optomechanical photon blockade, Yuxun Ling, Sofia Qvarfort, and Florian Mintert #NonlinearPhysics #Quantum #Optics go.aps.org/3Jlj9cr

F. Look at society! THAT cost is ENORMOUS! Science has contributed to that imbalance! Please recognize the responsibility of your position and help turn things around...recognizing imminent eqs in the process! #NonLinearPhysics

Chaos in coupled Kerr-nonlinear parametric oscillators, Hayato Goto and Taro Kanao #nonlinearphysics #quantum go.aps.org/3J5kQsC

Fourier-domain transfer entropy spectrum, Yang Tian, Yaoyuan Wang, Ziyang Zhang, and Pei Sun @TyanYang04 @PeiSunTHU #nonlinearphysics go.aps.org/30xzqaU

Emergent chirality and current generation, Satyanu Bhadra, Shankar Ghosh, and Shamik Gupta #nonlinearphysics #softmatter go.aps.org/3yuOIKa

Controlling optical beam thermalization via band-gap engineering, Cheng Shi, Tsampikos Kottos, and Boris Shapiro #nonlinearphysics #photonics go.aps.org/3BOgUrI

New #SpecialIssue "Emergent Collective Dynamics in Bioenergetic Molecular Systems", edited by Prof. Dr. Alexey Goltsov and Prof. Dr. Vasiliy N. Kadantsev, deadline 31 March 2022. Look forward to your submissions! mdpi.com/journal/entrop… #nonlinearphysics active #matterphysics

A new paper by former #BSFgrantee @YShokef @TelAvivUni's School of Mechanical Engineering. He received a BSF #physics grant in #nonlinearphysics and #softcondensedmatter with US collaborator Prof. Aparna Baskaran from @BrandeisU.

Phase transitions and correlations in fracture processes where disorder and stress compete, Santanu Sinha, Subhadeep Roy, and Alex Hansen #nonlinearphysics #statisticalphysics #fracture #solidmechanics @PoreLab_SFF go.aps.org/3oafYYJ

Koopman–von Neumann approach to quantum simulation of nonlinear classical dynamics, Ilon Joseph #computational #nonlinearphysics #quantum go.aps.org/2FLWdFy

Dark solitons revealed in Lieb-Liniger eigenstates, Weronika Golletz, Wojciech Górecki, Rafał Ołdziejewski, and Krzysztof Pawłowski #atomicphysics #nonlinearphysics #optics go.aps.org/3i7ahHz

Experimental realization of the classical Dicke model, Mario A. Quiroz-Juárez, Jorge Chávez-Carlos, José L. Aragón, Jorge G. Hirsch, and Roberto de J. León-Montiel #electronics #nonlinearphysics #quantum go.aps.org/2Djggth

Editors' Suggestion: Emergent conformal symmetry in nonunitary random dynamics of free fermions, Xiao Chen, Yaodong Li, Matthew P. A. Fisher, and Andrew Lucas #condensedmatter #nonlinearphysics #quantum go.aps.org/3izOlW9

Bifurcation analysis and structural stability of simplicial oscillator populations, Can Xu, Xuebin Wang, and Per Sebastian Skardal #nonlinearphysics #oscillators #networks go.aps.org/2MxTqiS

Koopman–von Neumann approach to quantum simulation of nonlinear classical dynamics, Ilon Joseph #computational #nonlinearphysics #quantum go.aps.org/2FLWdFy

Asymmetric balance in symmetry breaking, Bruno Garbin, Julien Fatome, Gian-Luca Oppo, Miro Erkintalo, Stuart G. Murdoch, and Stéphane Coen #nonlinearphysics #optics #photonics go.aps.org/3ddvnS3

Dark solitons revealed in Lieb-Liniger eigenstates, Weronika Golletz, Wojciech Górecki, Rafał Ołdziejewski, and Krzysztof Pawłowski #atomicphysics #nonlinearphysics #optics go.aps.org/3i7ahHz

Intermittent turbulence in a many-body system, Guram Gogia (@gogia_guga), Wentao Yu, and Justin C. Burton @burtonlab #dustyplasma #nonlinearphysics #softmatter go.aps.org/2Mjoraq

Bifurcation analysis and structural stability of simplicial oscillator populations, Can Xu, Xuebin Wang, and Per Sebastian Skardal #nonlinearphysics #oscillators #networks go.aps.org/2MxTqiS

Fourier-domain transfer entropy spectrum, Yang Tian, Yaoyuan Wang, Ziyang Zhang, and Pei Sun @TyanYang04 @PeiSunTHU #nonlinearphysics go.aps.org/30xzqaU

Experimental realization of the classical Dicke model, Mario A. Quiroz-Juárez, Jorge Chávez-Carlos, José L. Aragón, Jorge G. Hirsch, and Roberto de J. León-Montiel #electronics #nonlinearphysics #quantum go.aps.org/2Djggth

Emergent chirality and current generation, Satyanu Bhadra, Shankar Ghosh, and Shamik Gupta #nonlinearphysics #softmatter go.aps.org/3yuOIKa

Finding regulatory modules of chemical reaction systems, Yuhei Yamauchi, Atsuki Hishida, Takashi Okada, and Atsushi Mochizuki @TheoBioYuhei #ChemicalPhysics #StatisticalPhysics #NonlinearPhysics go.aps.org/44BTN37

Fast optomechanical photon blockade, Yuxun Ling, Sofia Qvarfort, and Florian Mintert #NonlinearPhysics #Quantum #Optics go.aps.org/3Jlj9cr

Rogue waves and periodic solutions of a nonlocal nonlinear Schrödinger model, C. B. Ward, P. G. Kevrekidis, T. P. Horikis, and D. J. Frantzeskakis #nonlinearphysics #quantumphysics #solitons go.aps.org/2vD5hHE

Chaos in coupled Kerr-nonlinear parametric oscillators, Hayato Goto and Taro Kanao #nonlinearphysics #quantum go.aps.org/3J5kQsC

Buildup of incoherent dissipative solitons in ultrafast fiber lasers, Zhiqiang Wang, K. Nithyanandan, Aurélien Coillet, Patrice Tchofo-Dinda, and Philippe Grelu #nonlinearphysics #optics go.aps.org/318N9AD

Phase transitions and correlations in fracture processes where disorder and stress compete, Santanu Sinha, Subhadeep Roy, and Alex Hansen #nonlinearphysics #statisticalphysics #fracture #solidmechanics @PoreLab_SFF go.aps.org/3oafYYJ

Microstar cavities: An alternative concept for the confinement of light , Julius Kullig, Xuefeng Jiang, Lan Yang, and Jan Wiersig #optics #nonlinearphysics go.aps.org/3a839qy

Fermionic quantum carpets: From canals and ridges to solitonlike structures, Piotr T. Grochowski, Tomasz Karpiuk, Mirosław Brewczyk, and Kazimierz Rzążewski #solitons #quantumphysics #nonlinearphysics go.aps.org/3baaxT5

Controlling optical beam thermalization via band-gap engineering, Cheng Shi, Tsampikos Kottos, and Boris Shapiro #nonlinearphysics #photonics go.aps.org/3BOgUrI

Receptor-induced transient responses in cells with oscillatory actin dynamics, Jose Negrete, Jr. (@JoseNegreteJr3), Alain Pumir, Christian Westendorf, Marco Tarantola, Eberhard Bodenschatz, and Carsten Beta #biophysics #nonlinearphysics go.aps.org/2Th882c

Statistics of a simple transmission mode on a lossy chaotic background, Dmitry V. Savin @BrunelMaths #nonlinearphysics #optics go.aps.org/3ar6f8J

Laser #roguewaves will be used in the future by #spacecrafts #nonlinearphysics #maccarisystem