- Grand-canonical solution of semiflexible self-avoiding trails on the Bethe lattice

Author(s): W. G. Dantas, Tiago J. Oliveira, Jürgen F. Stilck, and Thomas PrellbergWe consider a model of semiflexible interacting self-avoiding trails (sISATs) on a lattice, where the walks are constr … - Nonlinear diffusion in multicomponent liquid solutions

Author(s): Vyacheslav V. Obukhovsky, Andrii M. Kutsyk, Viktoria V. Nikonova, and Oleksii O. IlchenkoMutual diffusion in multicomponent liquids is studied. It is taken into consideration that the influ … - Eigenvector statistics of the product of Ginibre matrices

Author(s): Zdzisław Burda, Bartłomiej J. Spisak, and Pierpaolo VivoWe develop a method to calculate left-right eigenvector correlations of the product of m independent N×N complex Ginibre matrices. Fo … - Quantum thermal machines driven by vacuum forces

Author(s): Hugo Terças, Sofia Ribeiro, Marco Pezzutto, and Yasser OmarWe propose a quantum thermal machine composed of two nanomechanical resonators (two membranes suspended over a trench in a substra … - Onsager symmetry from mesoscopic time reversibility and the hydrodynamic dispersion tensor for coarse-grained systems

Author(s): Eirik G. Flekkøy, Steven R. Pride, and Renaud ToussaintOnsager reciprocity relations derive from the fundamental time reversibility of the underlying microscopic equations of motion. This g … - Weakly and strongly coupled Belousov-Zhabotinsky patterns

Author(s): Stephan Weiss and Robert D. DeeganWe investigate experimentally and numerically the synchronization of two-dimensional spiral wave patterns in the Belousov-Zhabotinsky reaction due to point … - Reconstructing network topology and coupling strengths in directed networks of discrete-time dynamics

Author(s): Pik-Yin LaiReconstructing network connection topology and interaction strengths solely from measurement of the dynamics of the nodes is a challenging inverse problem of broad applicability … - Channel noise effects on first spike latency of a stochastic Hodgkin-Huxley neuron

Author(s): Brenton Maisel and Katja LindenbergWhile it is widely accepted that information is encoded in neurons via action potentials or spikes, it is far less understood what specific features of sp … - Dephasing and diffusion on the alveolar surface

Author(s): L. R. Buschle, F. T. Kurz, T. Kampf, W. L. Wagner, J. Duerr, W. Stiller, P. Konietzke, F. Wünnemann, M. A. Mall, M. O. Wielpütz, H. P. Schlemmer, and C. H. ZienerWe propose a surface model … - Spectral imbalance in the inertial range dynamics of decaying rotating turbulence

Author(s): P. C. Valente and V. DallasDirect numerical simulations of homogeneous decaying turbulence with background rotation show the existence of a systematic and significant imbalance between the … - Fractally Fourier decimated homogeneous turbulent shear flow in noninteger dimensions

Author(s): Mani Fathali and Saber KhoeiTime evolution of the fully resolved incompressible homogeneous turbulent shear flow in noninteger Fourier dimensions is numerically investigated. The Fourier di … - Criticality and turbulence in a resistive magnetohydrodynamic current sheet

Author(s): Alexander J. Klimas and Vadim M. UritskyScaling properties of a two-dimensional (2d) plasma physical current-sheet simulation model involving a full set of magnetohydrodynamic (MHD) equatio … - High-order weighted essentially nonoscillatory finite-difference formulation of the lattice Boltzmann method in generalized curvilinear coordinates

Author(s): Kazem Hejranfar, Mohammad Hossein Saadat, and Sina TaheriIn this work, a high-order weighted essentially nonoscillatory (WENO) finite-difference lattice Boltzmann method (WENOLBM) is develo … - Front interaction induces excitable behavior

Author(s): P. Parra-Rivas, M. A. Matías, P. Colet, L. Gelens, D. Walgraef, and D. GomilaSpatially extended systems can support local transient excitations in which just a part of the system is excited … - From maximum power to a trade-off optimization of low-dissipation heat engines: Influence of control parameters and the role of entropy generation

Author(s): Julian Gonzalez-Ayala, A. Calvo Hernández, and J. M. M. RocoFor a low-dissipation heat engine model we present the role of the partial contact times and the total operational time as contro … - Start-up inertia as an origin for heterogeneous flow

Author(s): Marko Korhonen, Mikael Mohtaschemi, Antti Puisto, Xavier Illa, and Mikko J. AlavaFor quite some time nonmonotonic flow curve was thought to be a requirement for shear banded flows in comple … - Electric-field-induced transport of microspheres in the isotropic and chiral nematic phase of liquid crystals

Author(s): Jiyoung Oh, Helen F. Gleeson, and Ingo DierkingThe application of an electric field to microspheres suspended in a liquid crystal causes particle translation in a plane perpendicular to the … - Transient effects in ice nucleation of a water drop impacting onto a cold substrate

Author(s): Markus Schremb, Ilia V. Roisman, and Cameron TropeaThe impact of water drops onto a solid surface at subfreezing temperatures has been experimentally studied. Drop nucleation has been obser … - Cluster growth in driven granular gases

Author(s): Martial Noirhomme, François Ludewig, Nicolas Vandewalle, and Eric OpsomerWe investigate numerically and theoretically the internal structures of a driven granular gas in cuboidal cell geome … - Numerical study of nonequilibrium gas flow in a microchannel with a ratchet surface

Author(s): Lianhua Zhu and Zhaoli GuoThe nonequilibrium gas flow in a two-dimensional microchannel with a ratchet surface and a moving wall is investigated numerically with a kinetic method [Guo et al ... - Numerical solutions of the time-dependent Schrödinger equation in two dimensions

Author(s): Wytse van Dijk, Trevor Vanderwoerd, and Sjirk-Jan PrinsThe generalized Crank-Nicolson method is employed to obtain numerical solutions of the two-dimensional time-dependent Schrödinger equa ... - Alternative formulation to incorporate forcing terms in a lattice Boltzmann scheme with central moments

Author(s): Alessandro De RosisWithin the framework of the central-moment-based lattice Boltzmann method, we propose a strategy to account for external forces in two and three dimensions. Its numerical ... - General simulation algorithm for autocorrelated binary processes

Author(s): Francesco Serinaldi and Federico LombardoThe apparent ubiquity of binary random processes in physics and many other fields has attracted considerable attention from the modeling community. ... - Pseudopotential lattice Boltzmann equation method for two-phase flow: A higher-order Chapmann-Enskog expansion

Author(s): Qinglan Zhai, Lin Zheng, and Song ZhengIn this paper, a higher order Chapmann-Enskog expansion technique is applied to pseudopotential lattice Boltzmann equation (LBE), and the contribution ... - Aging ballistic Lévy walks

Author(s): Marcin Magdziarz and Tomasz ZorawikAging can be observed for numerous physical systems. In such systems statistical properties [like probability distribution, mean square displacement (MSD) ... - Dynamics of the quantum search and quench-induced first-order phase transitions

Author(s): Ivan B. Coulamy, Andreia Saguia, and Marcelo S. SarandyWe investigate the excitation dynamics at a first-order quantum phase transition (QPT). More specifically, we consider the quench-indu ... - Quantum thermal diode based on two interacting spinlike systems under different excitations

Author(s): Jose Ordonez-Miranda, Younès Ezzahri, and Karl JoulainWe demonstrate that two interacting spinlike systems characterized by different excitation frequencies and coupled to a thermal bath ea ... - Entanglement prethermalization in an interaction quench between two harmonic oscillators

Author(s): Tatsuhiko N. Ikeda, Takashi Mori, Eriko Kaminishi, and Masahito UedaEntanglement prethermalization (EP) refers to a quasi-stationary nonequilibrium state of a composite system in which each ... - Free energy of singular sticky-sphere clusters

Author(s): Yoav Kallus and Miranda Holmes-CerfonNetworks of particles connected by springs model many condensed-matter systems, from colloids interacting with a short-range potential and complex fluid ... - Accuracy of rate coding: When shorter time window and higher spontaneous activity help

Author(s): Marie Levakova, Massimiliano Tamborrino, Lubomir Kostal, and Petr LanskyIt is widely accepted that neuronal firing rates contain a significant amount of information about the stimulus inten ... - Quantum information processing in the radical-pair mechanism: Haberkorn's theory violates the Ozawa entropy bound

Author(s): K. Mouloudakis and I. K. KominisRadical-ion-pair reactions, central for understanding the avian magnetic compass and spin transport in photosynthetic reaction centers, were recently shown t ... - Active microrheology of smectic membranes

Author(s): Zhiyuan Qi, Kyle Ferguson, Yancey Sechrest, Tobin Munsat, Cheol Soo Park, Matthew A. Glaser, Joseph E. Maclennan, Noel A. Clark, Tatiana Kuriabova, and Thomas R. PowersThin fluid membranes ... - Hydrodynamics, wall-slip, and normal-stress differences in rarefied granular Poiseuille flow

Author(s): Ronak Gupta and Meheboob AlamHydrodynamic fields, macroscopic boundary conditions, and non-Newtonian rheology of the acceleration-driven Poiseuille flow of a dilute granular gas are probed ... - Discrete breathers in a mass-in-mass chain with Hertzian local resonators

Author(s): S. P. Wallen, J. Lee, D. Mei, C. Chong, P. G. Kevrekidis, and N. BoechlerWe report on the existence of discrete breathers in a one-dimensional, mass-in-mass chain with linear intersite coup ... - Scaling of velocity and scalar structure functions in ac electrokinetic turbulence

Author(s): Wei Zhao and Guiren WangElectrokinetic (EK) turbulence or electrohydrodynamic (EHD) turbulence has been recently achieved in different fluids under both ac [G. Wang et al., Lab Chip 14, 145 ... - Energy partition, scale by scale, in magnetic Archimedes Coriolis weak wave turbulence

Author(s): A. Salhi, F. S. Baklouti, F. Godeferd, T. Lehner, and C. CambonMagnetic Archimedes Coriolis (MAC) waves are omnipresent in several geophysical and astrophysical flows such as the solar tach ... - Opening-assisted coherent transport in the semiclassical regime

Author(s): Yang Zhang, G. Luca Celardo, Fausto Borgonovi, and Lev KaplanWe study quantum enhancement of transport in open systems in the presence of disorder and dephasing. Quantum coherence effects m ... - Stochastic thermodynamics of Langevin systems under time-delayed feedback control. II. Nonequilibrium steady-state fluctuations

Author(s): M. L. Rosinberg, G. Tarjus, and T. MunakataThis paper is the second in a series devoted to the study of Langevin systems subjected to a continuous time-delayed feedback control. The goal of ... - Hydrodynamics in kinetically constrained lattice-gas models

Author(s): Eial Teomy and Yair ShokefThis paper presents an approximation for the density-dependent diffusion coefficient that describes the behavior of kinetically constrained lattice-gas models. The ... - Functional constraints on phenomenological coefficients

Author(s): Václav Klika, Michal Pavelka, and Jay B. BenzigerThermodynamic fluxes (diffusion fluxes, heat flux, etc.) are often proportional to thermodynamic forces (gradients of chemical potentials, t ... - Impact of discontinuous deformation upon the rate of chaotic mixing

Author(s): Lachlan D. Smith, Murray Rudman, Daniel R. Lester, and Guy MetcalfeThis paper tackles the problem of mixing in materials that, in addition to smooth flows, can also exhibit discontinuous re ... - Extracting trajectory equations of classical periodic orbits from the quantum eigenmodes in two-dimensional integrable billiards

Author(s): Y. H. Hsieh, Y. T. Yu, P. H. Tuan, J. C. Tung, K. F. Huang, and Y. F. ChenThe trajectory equations for classical periodic orbits in the equilateral-triangular and circular billiards are sys ... - Memory effects on epidemic evolution: The susceptible-infected-recovered epidemic model

Author(s): M. Saeedian, M. Khalighi, N. Azimi-Tafreshi, G. R. Jafari, and M. AusloosMemory has a great impact on the evolution of every process related to human societies. Among them, the evolution of ... - Instabilities of a rotating helical rod in a viscous fluid

Author(s): Yunyoung Park, Yongsam Kim, William Ko, and Sookkyung LimSome types of bacteria possess a propulsion mechanism that uses a helical flagellum that rotates and allows for swimming. The author ... - Analysis of spontaneous oscillations for a three-state power-stroke model

Author(s): Takumi Washio, Toshiaki Hisada, Seine A. Shintani, and Hideo HiguchiOur study considers the mechanism of the spontaneous oscillations of molecular motors that are driven by the power stroke ... - Phase analysis method for burst onset prediction

Author(s): Flavio Stellino, Alberto Mazzoni, and Marco StoraceThe response of bursting neurons to fluctuating inputs is usually hard to predict, due to their strong nonlinearity. For the same reason, ... - Method to manage integration error in the Green-Kubo method

Author(s): Laura de Sousa Oliveira and P. Alex GreaneyThe Green-Kubo method is a commonly used approach for predicting transport properties in a system from equilibrium molecular dynamics simulations. ... - Universal modeling of weak antilocalization corrections in quasi-two-dimensional electron systems using predetermined return orbitals

Author(s): A. Sawada and T. KogaWe have developed a method to calculate the weak localization and antilocalization corrections based on the real-space simulation, where we provide 147 885 predetermine ... - Kinetics of first-order phase transitions with correlated nuclei

Author(s): J. M. Rickman and K. BarmakWe demonstrate that the time evolution of a first-order phase transition may be described quite generally in terms of the statistics of point processes, thereby p ... - Transient dynamics and their control in time-delay autonomous Boolean ring networks

Author(s): Johannes Lohmann, Otti D'Huys, Nicholas D. Haynes, Eckehard Schöll, and Daniel J. GauthierBiochemical systems with switch-like interactions, such as gene regulatory networks, are well ... - Large-amplitude nonlinear normal modes of the discrete sine lattices

Author(s): Valeri V. Smirnov and Leonid I. ManevitchWe present an analytical description of the large-amplitude stationary oscillations of the finite discrete system of harmonically coupled pendulums ... - Flexible dynamics of two quorum-sensing coupled repressilators

Author(s): Edward H. Hellen and Evgeny VolkovGenetic oscillators play important roles in cell life regulation. The regulatory efficiency usually depends strongly on the emergence of stable collective ... - Brownian motion of a circle swimmer in a harmonic trap

Author(s): Soudeh Jahanshahi, Hartmut Löwen, and Borge ten HagenWe study the dynamics of a Brownian circle swimmer with a time-dependent self-propulsion velocity in an external temporally varying harm ... - Role of structure in the α and β dynamics of a simple glass-forming liquid

Author(s): D. Fragiadakis and C. M. RolandThe elusive connection between dynamics and local structure in supercooled liquids is an important piece of the puzzle in the unsolved problem of the glass tr ... - Scale-dependent colocalization in a population of gyrotactic swimmers

Author(s): M. Borgnino, F. De Lillo, and G. BoffettaWe study the small scale clustering of gyrotactic swimmers transported by a turbulent flow, when the intrinsic variability of the swimming parameter ... - Retarding viscous Rayleigh-Taylor mixing by an optimized additional mode

Author(s): C. Y. Xie, J. J. Tao, Z. L. Sun, and J. LiThe Rayleigh-Taylor (RT) mixing induced by random interface disturbances between two incompressible viscous fluids is simulated numerically. The en ... - Confidence and efficiency scaling in variational quantum Monte Carlo calculations

Author(s): F. Delyon, B. Bernu, and Markus HolzmannBased on the central limit theorem, we discuss the problem of evaluation of the statistical error of Monte Carlo calculations using a time-discretize ... - Intermediate scattering function for macromolecules in solutions probed by neutron spin echo

Author(s): Yun LiuThe neutron-spin-echo method (NSE) is a powerful technique for studying internal dynamics of macromolecules in solutions because it can simultaneously probe length and time scales co ... - Decomposition of radiation energy into work and heat

Author(s): Tatsuro Yuge, Makoto Yamaguchi, and Tetsuo OgawaWe investigate energy transfer by the radiation from a cavity quantum electrodynamics system in the context of quantum thermodynamics. We pro ... - Jamming for nematic deposition in the presence of impurities

Author(s): E. E. Vogel, J. F. Valdes, W. Lebrecht, A. J. Ramirez-Pastor, and P. CentresThe deposition of one-dimensional objects (such as polymers) on a one-dimensional lattice with the presence of im ... - Self-similar Turing patterns: An anomalous diffusion consequence

Author(s): D. Hernández, E. C. Herrera-Hernández, M. Núñez-López, and H. Hernández-CoronadoIn this work, we show that under specific anomalous diffusion conditions, chemical systems can produce well-o ... - Evolution of correlated multiplexity through stability maximization

Author(s): Sanjiv K. Dwivedi and Sarika JalanInvestigating the relation between various structural patterns found in real-world networks and the stability of underlying systems is crucial to understan ... - Spatiotemporal velocity-velocity correlation function in fully developed turbulence

Author(s): Léonie Canet, Vincent Rossetto, Nicolás Wschebor, and Guillaume BalaracTurbulence is a ubiquitous phenomenon in natural and industrial flows. Since the celebrated work of Kolmogorov in 1941 ... - Monte Carlo approach to calculate proton stopping in warm dense matter within particle-in-cell simulations

Author(s): D. Wu, X. T. He, W. Yu, and S. FritzscheA Monte Carlo approach to proton stopping in warm dense matter is implemented into an existing particle-in-cell code. This approach is based on multi ... - Monte Carlo approach to calculate ionization dynamics of hot solid-density plasmas within particle-in-cell simulations

Author(s): D. Wu, X. T. He, W. Yu, and S. FritzscheA physical model based on a Monte Carlo approach is proposed to calculate the ionization dynamics of hot-solid-density plasmas within particle-in-cel ... - Quantitative shadowgraphy and proton radiography for large intensity modulations

Author(s): Muhammad Firmansyah Kasim, Luke Ceurvorst, Naren Ratan, James Sadler, Nicholas Chen, Alexander Sävert, Raoul Trines, Robert Bingham, Philip N. Burrows, Malte C. Kaluza, and Peter NorreysSha ... - Using Hamiltonian control to desynchronize Kuramoto oscillators

Author(s): Oltiana Gjata, Malbor Asllani, Luigi Barletti, and Timoteo CarlettiMany coordination phenomena are based on a synchronization process, whose global behavior emerges from the interactions am ... - Wall depletion length of a channel-confined polymer

Author(s): Guo Kang Cheong, Xiaolan Li, and Kevin D. DorfmanNumerous experiments have taken advantage of DNA as a model system to test theories for a channel-confined polymer. A tacit assumption in an ... - Driven inelastic Maxwell gas in one dimension

Author(s): V. V. Prasad, Sanjib Sabhapandit, Abhishek Dhar, and Onuttom NarayanA lattice version of the driven inelastic Maxwell gas is studied in one dimension with periodic boundary conditions. Each ... - Thermodynamics of a one-dimensional self-gravitating gas with periodic boundary conditions

Author(s): Pankaj Kumar, Bruce N. Miller, and Dan PirjolWe study the thermodynamic properties of a one-dimensional gas with one-dimensional gravitational interactions. Periodic boundary conditions are ... - Mean-field message-passing equations in the Hopfield model and its generalizations

Author(s): Marc MézardMotivated by recent progress in using restricted Boltzmann machines as preprocessing algorithms for deep neural network, we revisit the mean-field equations [belief-propagation a ... - Combinatorial optimization using dynamical phase transitions in driven-dissipative systems

Author(s): Timothée Leleu, Yoshihisa Yamamoto, Shoko Utsunomiya, and Kazuyuki AiharaThe dynamics of driven-dissipative systems is shown to be well-fitted for achieving efficient combinatorial optimiza ... - Stochastic graph Voronoi tessellation reveals community structure

Author(s): Zsolt I. Lázár, István Papp, Levente Varga, Ferenc Járai-Szabó, Dávid Deritei, and Mária Ercsey-RavaszGiven a network, the statistical ensemble of its graph-Voronoi diagrams with randomly c ... - Local clustering in scale-free networks with hidden variables

Author(s): Remco van der Hofstad, A. J. E. M. Janssen, Johan S. H. van Leeuwaarden, and Clara StegehuisWe investigate the presence of triangles in a class of correlated random graphs in which hidden v ... - Continuous time limits of the utterance selection model

Author(s): Jérôme MichaudIn this paper we derive alternative continuous time limits of the utterance selection model (USM) for language change [G. J. Baxter et al., Phys. Rev. E 73, 046118 (2006)]. Th … - Large-charge quasimonoenergetic electron beams produced by off-axis colliding laser pulses in underdense plasma

Author(s): Z. G. Deng, Z. M. Zhang, B. Zhang, S. K. He, J. Teng, W. Hong, K. G. Dong, Y. C. Wu, B. Zhu, and Y. Q. GuElectrons can be efficiently injected into a plasma wave by colliding two counterpro … - Limits of size scalability of diffusion and growth: Atoms versus molecules versus colloids

Author(s): N. Kleppmann, F. Schreiber, and S. H. L. KlappUnderstanding fundamental growth processes is key to the control of nonequilibrium structure formation for a wide range of materials on all len … - Configurational and energy landscape in one-dimensional Coulomb systems

Author(s): Lucas Varela, Gabriel Téllez, and Emmanuel TrizacWe study a one-dimensional Coulomb system, where two charged colloids are neutralized by a collection of point counterions, with global neut … - Onset of anomalous diffusion from local motion rules

Author(s): Sarah de Nigris, Timoteo Carletti, and Renaud LambiotteAnomalous diffusion processes, in particular superdiffusive ones, are known to be efficient strategies for searching and navigation in … - Particle morphology effects in random sequential adsorption

Author(s): Lj. Budinski-Petković, I. Lončarević, D. Dujak, A. Karač, J. R. Šćepanović, Z. M. Jakšić, and S. B. VrhovacThe properties of the random sequential adsorption of objects of various shapes on … - Multifractality in individual honeybee behavior hints at colony-specific social cascades: Reanalysis of radio-frequency identification data from five different colonies

Author(s): Nicole S. Carver and Damian G. Kelty-StephenHoneybees (Apis mellifera) exhibit complex coordination and interaction across multiple behaviors such as swarming. This coordination among honey … - Cable equation for general geometry

Author(s): Erick J. López-Sánchez and Juan M. RomeroThe cable equation describes the voltage in a straight cylindrical cable, and this model has been employed to model electrical potential in dendrite … - Nuclear magnetic resonance diffusion pore imaging: Experimental phase detection by double diffusion encoding

Author(s): Kerstin Demberg, Frederik Bernd Laun, Johannes Windschuh, Reiner Umathum, Peter Bachert, and Tristan Anselm KuderDiffusion pore imaging is an extension of diffusion-weighted nuclear magneti … - Spiral-wave dynamics in a mathematical model of human ventricular tissue with myocytes and Purkinje fibers

Author(s): Alok Ranjan Nayak, A. V. Panfilov, and Rahul PanditWe present systematic numerical studies of the possible effects of the coupling of human endocardial and Purkinje cells at cellular and tw … - Sufficient conditions for the additivity of stall forces generated by multiple filaments or motors

Author(s): Tripti Bameta, Dipjyoti Das, Dibyendu Das, Ranjith Padinhateeri, and Mandar M. InamdarThe authors study a model of cytoskeletal filaments and molecular motors and explore the conditions und … - Evolutionary games on cycles with strong selection

Author(s): P. M. Altrock, A. Traulsen, and M. A. NowakEvolutionary games on graphs describe how strategic interactions and population structure determine evolutionary success, quantified by the probab … - Driven optical matter: Dynamics of electrodynamically coupled nanoparticles in an optical ring vortex

Author(s): Patrick Figliozzi, Nishant Sule, Zijie Yan, Ying Bao, Stanislav Burov, Stephen K. Gray, Stuart A. Rice, Suriyanarayanan Vaikuntanathan, and Norbert F. SchererTo date investigations of the d … - Dynamics of field-driven population inversion in a confined colloidal mixture

Author(s): S. Chung, S. Samin, C. Holm, J. G. Malherbe, and S. AmokraneWe study, using Langevin dynamics simulations, the change in composition of a binary colloidal mixture confined in a finite-lengt … - Cation-induced monolayer collapse at lower surface pressure follows specific headgroup percolation

Author(s): Kaushik Das, Bijay Kumar Sah, and Sarathi KunduA Langmuir monolayer can be considered as a two-dimensional (2D) sheet at higher surface pressure which structurally deform with mechanical co … - Reynolds number scaling of velocity increments in isotropic turbulence

Author(s): Kartik P. Iyer, Katepalli R. Sreenivasan, and P. K. YeungUsing the largest database of isotropic turbulence available to date, generated by the direct numerical simulation (DNS) of the Navi … - Chimeralike states in two distinct groups of identical populations of coupled Stuart-Landau oscillators

Author(s): K. Premalatha, V. K. Chandrasekar, M. Senthilvelan, and M. LakshmananWe show the existence of chimeralike states in two distinct groups of identical populations of globally coupled Stuart-L … - Direct link between boson-peak modes and dielectric α-relaxation in glasses

Author(s): Bingyu Cui, Rico Milkus, and Alessio ZacconeWe compute the dielectric response of glasses starting from a microscopic system-bath Hamiltonian of the Zwanzig-Caldeira-Leggett type and using … - Publisher's Note: Refractory period of an excitable semiconductor laser with optical injection [Phys. Rev. E 95, 012214 (2017)]

Author(s): B. Garbin, A. Dolcemascolo, F. Prati, J. Javaloyes, G. Tissoni, and S. Barland[Phys. Rev. E 95, 029901] Published Fri Feb 10, 2017 - Cluster synchronization in networks of identical oscillators with α-function pulse coupling

Author(s): Bolun Chen, Jan R. Engelbrecht, and Renato MirolloWe study a network of N identical leaky integrate-and-fire model neurons coupled by α-function pulses, weighted by a coupling parameter K. … - Evolution of cooperative imitators in social networks

Author(s): Yixiao LiMany evolutionary game models for network reciprocity are based on an imitation dynamics, yet how semirational imitators prevail has seldom been explained. Here we use a model to i … - Mixed-order phase transition in a two-step contagion model with a single infectious seed

Author(s): Wonjun Choi, Deokjae Lee, and B. KahngPercolation is known as one of the most robust continuous transitions, because its occupation rule is intrinsically local. As one of the ways to break … - Impact of centrality on cooperative processes

Author(s): Sandro M. Reia, Sebastian Herrmann, and José F. FontanariThe solution of today's complex problems requires the grouping of task forces whose members are usually connected remotely over … - Inelastic non-Newtonian flow over heterogeneously slippery surfaces

Author(s): A. Sander Haase, Jeffery A. Wood, Lisette M. J. Sprakel, and Rob G. H. LammertinkIn this study, we investigated inelastic non-Newtonian fluid flow over heterogeneously slippery surfaces. Fi … - Enhanced settling of nonheavy inertial particles in homogeneous isotropic turbulence: The role of the pressure gradient and the Basset history force

Author(s): M. A. T. van Hinsberg, H. J. H. Clercx, and F. ToschiThe Stokes drag force and the gravity force are usually sufficient to describe the behavior of sub-Kolmogorov-size (or pointlike) heavy …