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Preview: Recent Articles in Phys. Rev. E

Recent Articles in Phys. Rev. E



Recent articles in Physical Review E



Published: 2018-01-18T02:02:50+00:00

 



Dynamic phase transition of the Blume-Capel model in an oscillating magnetic field

2018-01-17T10:00:00+00:00

Author(s): Erol Vatansever and Nikolaos G. Fytas

We employ numerical simulations and finite-size scaling techniques to investigate the properties of the dynamic phase transition that is encountered in the Blume-Capel model subjected to a periodically oscillating magnetic field. We mainly focus on the study of the two-dimensional system for various...


[Phys. Rev. E 97, 012122] Published Wed Jan 17, 2018



Criticality of $\mathrm{O}(N)$ symmetric models in the presence of discrete gauge symmetries

2018-01-17T10:00:00+00:00

Author(s): Andrea Pelissetto, Antonio Tripodo, and Ettore Vicari

We investigate the critical properties of the three-dimensional antiferromagnetic ${\mathrm{RP}}^{N−1}$ model, which is characterized by a global $\mathrm{O}(N$) symmetry and a discrete ${\mathbb{Z}}_{2}$ gauge symmetry. We perform a field-theoretical analysis using the Landau-Ginzburg-Wilson (LGW) ...


[Phys. Rev. E 97, 012123] Published Wed Jan 17, 2018



Breathing pulses in the damped-soliton model for nerves

2018-01-17T10:00:00+00:00

Author(s): G. Fongang Achu, F. M. Moukam Kakmeni, and A. M. Dikande

Unlike the Hodgkin-Huxley picture in which the nerve impulse results from ion exchanges across the cell membrane through ion-gate channels, in the so-called soliton model the impulse is seen as an electromechanical process related to thermodynamical phenomena accompanying the generation of the actio...


[Phys. Rev. E 97, 012211] Published Wed Jan 17, 2018



Bridges in complex networks

2018-01-17T10:00:00+00:00

Author(s): Ang-Kun Wu, Liang Tian, and Yang-Yu Liu

A bridge in a graph is an edge whose removal disconnects the graph and increases the number of connected components. We calculate the fraction of bridges in a wide range of real-world networks and their randomized counterparts. We find that real networks typically have more bridges than their comple...


[Phys. Rev. E 97, 012307] Published Wed Jan 17, 2018



Enhancement of large fluctuations to extinction in adaptive networks

2018-01-17T10:00:00+00:00

Author(s): Jason Hindes, Ira B. Schwartz, and Leah B. Shaw

During an epidemic, individual nodes in a network may adapt their connections to reduce the chance of infection. A common form of adaption is avoidance rewiring, where a noninfected node breaks a connection to an infected neighbor and forms a new connection to another noninfected node. Here we explo...


[Phys. Rev. E 97, 012308] Published Wed Jan 17, 2018



Wave failure at strong coupling in intracellular $\mathrm{C}{\mathrm{a}}^{2+}$ signaling system with clustered channels

2018-01-17T10:00:00+00:00

Author(s): Xiang Li, Yuning Wu, Xuejuan Gao, Meichun Cai, and Jianwei Shuai

As an important intracellular signal, $\mathrm{C}{\mathrm{a}}^{2+}$ ions control diverse cellular functions. In this paper, we discuss the $\mathrm{C}{\mathrm{a}}^{2+}$ signaling with a two-dimensional model in which the inositol 1,4,5-trisphosphate ($\mathrm{I}{\mathrm{P}}_{3}$) receptor channels a...


[Phys. Rev. E 97, 012406] Published Wed Jan 17, 2018



Interstitial micelles in binary blends of $ABA$ triblock copolymers and homopolymers

2018-01-17T10:00:00+00:00

Author(s): S. Wołoszczuk and M. Banaszak

We investigate triblock-homopolymer blends of types A1BA2/A and A1BA2/B, using a lattice Monte Carlo method. While the simulated triblock chains are compositionally symmetric in terms of the A-to-B volume ratio, the A1 block is significantly shorter than the A2 block. For the pure A1BA2 melt and the...


[Phys. Rev. E 97, 012503] Published Wed Jan 17, 2018



Rolling and aging in temperature-ramp soft adhesion

2018-01-17T10:00:00+00:00

Author(s): Giuseppe Boniello, Christophe Tribet, Emmanuelle Marie, Vincent Croquette, and Dražen Zanchi

Immediately before adsorption to a horizontal substrate, sinking polymer-coated colloids can undergo a complex sequence of landing, jumping, crawling, and rolling events. Using video tracking, we studied the soft adhesion to a horizontal flat plate of micron-size colloids coated by a controlled mola...


[Phys. Rev. E 97, 012609] Published Wed Jan 17, 2018



Simple analysis of scattering data with the Ornstein-Zernike equation

2018-01-17T10:00:00+00:00

Author(s): E. I. Kats and A. R. Muratov

In this paper we propose and explore a method of analysis of the scattering experimental data for uniform liquidlike systems. In our pragmatic approach we are not trying to introduce by hands an artificial small parameter to work out a perturbation theory with respect to the known results, e.g., for...


[Phys. Rev. E 97, 012610] Published Wed Jan 17, 2018



Cooperative behavior of molecular motions giving rise to two glass transitions in the same supercooled mesophase of a smectogenic liquid crystal dimer

2018-01-17T10:00:00+00:00

Author(s): David O. López, Josep Salud, María Rosario de la Fuente, Nerea Sebastián, and Sergio Diez-Berart

In the present work, a detailed analysis of the glassy behavior and the relaxation dynamics of the liquid crystal dimer α-(4-cyanobiphenyl-4′-yloxy)-ω-(1-pyrenimine-benzylidene-4′-oxy) heptane (CBO7O.Py) throughout both nematic and smectic-A mesophases by means of broadband dielectric spectroscopy h...


[Phys. Rev. E 97, 012704] Published Wed Jan 17, 2018



Model for the growth and the oscillation of a cavitation bubble in a spherical liquid-filled cavity enclosed in an elastic medium

2018-01-17T10:00:00+00:00

Author(s): Alexander A. Doinikov, Benjamin Dollet, and Philippe Marmottant

Equations are derived that describe the growth and subsequent damped oscillation of a cavitation bubble in a liquid-filled cavity surrounded by an elastic solid. It is assumed that the nucleation and the growth of the bubble are caused by an initial negative pressure in the cavity. The liquid is tre...


[Phys. Rev. E 97, 013108] Published Wed Jan 17, 2018



Nonlinear excitation of the ablative Rayleigh-Taylor instability for all wave numbers

2018-01-16T10:00:00+00:00

Author(s): H. Zhang, R. Betti, V. Gopalaswamy, R. Yan, and H. Aluie

Small-scale perturbations in the ablative Rayleigh-Taylor instability (ARTI) are often neglected because they are linearly stable when their wavelength is shorter than a linear cutoff. Using two-dimensional (2D) and three-dimensional (3D) numerical simulations, it is shown that linearly stable modes...


[Phys. Rev. E 97, 011203(R)] Published Tue Jan 16, 2018



Autonomous quantum Maxwell's demon based on two exchange-coupled quantum dots

2018-01-16T10:00:00+00:00

Author(s): Krzysztof Ptaszyński

I study an autonomous quantum Maxwell's demon based on two exchange-coupled quantum dots attached to the spin-polarized leads. The principle of operation of the demon is based on the coherent oscillations between the spin states of the system which act as a quantum iSWAP gate. Due to the operation o...


[Phys. Rev. E 97, 012116] Published Tue Jan 16, 2018



Thermal properties of vortices on curved surfaces

2018-01-16T10:00:00+00:00

Author(s): Leopoldo R. Gómez, Nicolás A. García, Daniel A. Vega, and José Lorenzana

We use Monte Carlo simulations to study the finite temperature behavior of vortices in the XY model for tangent vector order on curved backgrounds. Contrary to naive expectations, we show that the underlying geometry does not affect the proliferation of vortices with temperature respect to what is o...


[Phys. Rev. E 97, 012117] Published Tue Jan 16, 2018



Characterization of maximally random jammed sphere packings. III. Transport and electromagnetic properties via correlation functions

2018-01-16T10:00:00+00:00

Author(s): Michael A. Klatt and Salvatore Torquato

In the first two papers of this series, we characterized the structure of maximally random jammed (MRJ) sphere packings across length scales by computing a variety of different correlation functions, spectral functions, hole probabilities, and local density fluctuations. From the remarkable structur...


[Phys. Rev. E 97, 012118] Published Tue Jan 16, 2018



Two- and three-point functions at criticality: Monte Carlo simulations of the improved three-dimensional Blume-Capel model

2018-01-16T10:00:00+00:00

Author(s): Martin Hasenbusch

We compute two- and three-point functions at criticality for the three-dimensional Ising universality class. To this end, we simulate the improved Blume-Capel model at the critical temperature on lattices of a linear size up to $L=1600$. As a check, also simulations of the spin-$\frac{1}{2}$ Ising m...


[Phys. Rev. E 97, 012119] Published Tue Jan 16, 2018



Thermodynamics and computation during collective motion near criticality

2018-01-16T10:00:00+00:00

Author(s): Emanuele Crosato, Richard E. Spinney, Ramil Nigmatullin, Joseph T. Lizier, and Mikhail Prokopenko

We study self-organization of collective motion as a thermodynamic phenomenon in the context of the first law of thermodynamics. It is expected that the coherent ordered motion typically self-organises in the presence of changes in the (generalized) internal energy and of (generalized) work done on,...


[Phys. Rev. E 97, 012120] Published Tue Jan 16, 2018



Enhanced diffusion with abnormal temperature dependence in underdamped space-periodic systems subject to time-periodic driving

2018-01-16T10:00:00+00:00

Author(s): I. G. Marchenko, I. I. Marchenko, and A. V. Zhiglo

We present a study of the diffusion enhancement of underdamped Brownian particles in a one-dimensional symmetric space-periodic potential due to external symmetric time-periodic driving with zero mean. We show that the diffusivity can be enhanced by many orders of magnitude at an appropriate choice ...


[Phys. Rev. E 97, 012121] Published Tue Jan 16, 2018



Oscillating decorated interfaces in parametrically driven systems

2018-01-16T10:00:00+00:00

Author(s): E. Berrios-Caro, M. G. Clerc, M. A. Ferre, and A. O. Leon

Macroscopic systems forced by the temporal modulation of their parameters exhibit complex interfaces between symmetric states. Here we investigate the origin of the transition from a flat to an oscillating decorated interface. Based on a model that describes a magnetic plane under the influence of a...


[Phys. Rev. E 97, 012207] Published Tue Jan 16, 2018



Spontaneous emergence of rogue waves in partially coherent waves: A quantitative experimental comparison between hydrodynamics and optics

2018-01-16T10:00:00+00:00

Author(s): R. El Koussaifi, A. Tikan, A. Toffoli, S. Randoux, P. Suret, and M. Onorato

Rogue waves are extreme and rare fluctuations of the wave field that have been discussed in many physical systems. Their presence substantially influences the statistical properties of a partially coherent wave field, i.e., a wave field characterized by a finite band spectrum with random Fourier pha...


[Phys. Rev. E 97, 012208] Published Tue Jan 16, 2018



Relationship between the mechanisms of gamma rhythm generation and the magnitude of the macroscopic phase response function in a population of excitatory and inhibitory modified quadratic integrate-and-fire neurons

2018-01-16T10:00:00+00:00

Author(s): Akihiko Akao, Yutaro Ogawa, Yasuhiko Jimbo, G. Bard Ermentrout, and Kiyoshi Kotani

Gamma oscillations are thought to play an important role in brain function. Interneuron gamma (ING) and pyramidal interneuron gamma (PING) mechanisms have been proposed as generation mechanisms for these oscillations. However, the relation between the generation mechanisms and the dynamical properti...


[Phys. Rev. E 97, 012209] Published Tue Jan 16, 2018



Scaling properties of dynamical localization in monochromatically perturbed quantum maps: Standard map and Anderson map

2018-01-16T10:00:00+00:00

Author(s): Hiroaki S. Yamada, Fumihiro Matsui, and Kensuke S. Ikeda

Dynamical localization phenomena of monochromatically perturbed standard map (SM) and Anderson map (AM), which are both identified with a two-dimensional disordered system under suitable conditions, are investigated by the numerical wave-packet propagation. Some phenomenological formula of the dynam...


[Phys. Rev. E 97, 012210] Published Tue Jan 16, 2018



Nonparametric weighted stochastic block models

2018-01-16T10:00:00+00:00

Author(s): Tiago P. Peixoto

We present a Bayesian formulation of weighted stochastic block models that can be used to infer the large-scale modular structure of weighted networks, including their hierarchical organization. Our method is nonparametric, and thus does not require the prior knowledge of the number of groups or oth...


[Phys. Rev. E 97, 012306] Published Tue Jan 16, 2018



Binding constant of cell adhesion receptors and substrate-immobilized ligands depends on the distribution of ligands

2018-01-16T10:00:00+00:00

Author(s): Long Li, Jinglei Hu, Guangkui Xu, and Fan Song

Cell-cell adhesion and the adhesion of cells to tissues and extracellular matrix, which are pivotal for immune response, tissue development, and cell locomotion, depend sensitively on the binding constant of receptor and ligand molecules anchored on the apposing surfaces. An important question remai...


[Phys. Rev. E 97, 012405] Published Tue Jan 16, 2018



Ordering transitions of weakly anisotropic hard rods in narrow slitlike pores

2018-01-16T10:00:00+00:00

Author(s): Roohollah Aliabadi, Péter Gurin, Enrique Velasco, and Szabolcs Varga

The effect of strong confinement on the positional and orientational ordering is examined in a system of hard rectangular rods with length $L$ and diameter $D$ ($L>D$) using the Parsons-Lee modification of the second virial density-functional theory. The rods are nonmesogenic $(L/D<3)$ and con...


[Phys. Rev. E 97, 012703] Published Tue Jan 16, 2018



Critical phenomena in quasi-two-dimensional vibrated granular systems

2018-01-16T10:00:00+00:00

Author(s): Marcelo Guzmán and Rodrigo Soto

The critical phenomena associated to the liquid-to-solid transition of quasi-two-dimensional vibrated granular systems is studied using molecular dynamics simulations of the inelastic hard sphere model. The critical properties are associated to the fourfold bond-orientational order parameter ${χ}_{4...


[Phys. Rev. E 97, 012907] Published Tue Jan 16, 2018



Kullback-Leibler divergence measure of intermittency: Application to turbulence

2018-01-16T10:00:00+00:00

Author(s): Carlos Granero-Belinchón, Stéphane G. Roux, and Nicolas B. Garnier

For generic systems exhibiting power law behaviors, and hence multiscale dependencies, we propose a simple tool to analyze multifractality and intermittency, after noticing that these concepts are directly related to the deformation of a probability density function from Gaussian at large scales to ...


[Phys. Rev. E 97, 013107] Published Tue Jan 16, 2018



Turbulent stagnation in a $Z$-pinch plasma

2018-01-16T10:00:00+00:00

Author(s): E. Kroupp, E. Stambulchik, A. Starobinets, D. Osin, V. I. Fisher, D. Alumot, Y. Maron, S. Davidovits, N. J. Fisch, and A. Fruchtman

The ion kinetic energy in a stagnating plasma was previously determined by Kroupp et al. [Phys. Rev. Lett. 107, 105001 (2011)] from Doppler-dominated line shapes augmented by measurements of plasma properties and assuming a uniform-plasma model. Notably, the energy was found to be dominantly stored ...


[Phys. Rev. E 97, 013202] Published Tue Jan 16, 2018



Unsupervised machine learning account of magnetic transitions in the Hubbard model

2018-01-16T10:00:00+00:00

Author(s): Kelvin Ch'ng, Nick Vazquez, and Ehsan Khatami

We employ several unsupervised machine learning techniques, including autoencoders, random trees embedding, and $t$-distributed stochastic neighboring ensemble ($t$-SNE), to reduce the dimensionality of, and therefore classify, raw (auxiliary) spin configurations generated, through Monte Carlo simul...


[Phys. Rev. E 97, 013306] Published Tue Jan 16, 2018



Erratum: Physics of giant electromagnetic pulse generation in short-pulse laser experiments [Phys. Rev. E 91, 043106 (2015)]

2018-01-16T10:00:00+00:00

Author(s): A. Poyé, S. Hulin, M. Bailly-Grandvaux, J.-L. Dubois, J. Ribolzi, D. Raffestin, M. Bardon, F. Lubrano-Lavaderci, E. D'Humières, J. J. Santos, Ph. Nicolaï, and V. Tikhonchuk

[Phys. Rev. E 97, 019903] Published Tue Jan 16, 2018



Lee-Yang zeros and large-deviation statistics of a molecular zipper

2018-01-12T10:00:00+00:00

Author(s): Aydin Deger, Kay Brandner, and Christian Flindt

The authors investigate a thermal phase transition in a molecular zipper model of a double-stranded macromolecule. From energy fluctuations in small zippers, they show that they can predict the temperature at which a phase transition occurs in the thermodynamic limit. The work suggests similar relationships between fluctuations in other small systems and their phase behavior.

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[Phys. Rev. E 97, 012115] Published Fri Jan 12, 2018



Collective excitability in a mesoscopic neuronal model of epileptic activity

2018-01-12T10:00:00+00:00

Author(s): Maciej Jedynak, Antonio J. Pons, and Jordi Garcia-Ojalvo

At the mesoscopic scale, the brain can be understood as a collection of interacting neuronal oscillators, but the extent to which its sustained activity is due to coupling among brain areas is still unclear. Here we address this issue in a simplified situation by examining the effect of coupling bet...


[Phys. Rev. E 97, 012204] Published Fri Jan 12, 2018



Transmission coefficient from generalized Cantor-like potentials and its multifractality

2018-01-12T10:00:00+00:00

Author(s): Taichi Ogawana and Hidetsugu Sakaguchi

We study the scattering problem at generalized Cantor-like potentials characterized by the expansion rate $a$ and duplication number $N$, and derive an exact formula of transmittance. It was found that the transmittance is expressed with Chebyshev polynomials of the second kind, and the multifractal...


[Phys. Rev. E 97, 012205] Published Fri Jan 12, 2018



Aspects of diffusion in the stadium billiard

2018-01-12T10:00:00+00:00

Author(s): Črt Lozej and Marko Robnik

We perform a detailed numerical study of diffusion in the $ɛ$ stadium of Bunimovich, and propose an empirical model of the local and global diffusion for various values of $ɛ$ with the following conclusions: (i) the diffusion is normal for all values of $ɛ$ ($≤0.3$) and all initial conditions, (ii) ...


[Phys. Rev. E 97, 012206] Published Fri Jan 12, 2018



Role of spatial heterogeneity in the collective dynamics of cilia beating in a minimal one-dimensional model

2018-01-12T10:00:00+00:00

Author(s): Supravat Dey, Gladys Massiera, and Estelle Pitard

Cilia are elastic hairlike protuberances of the cell membrane found in various unicellular organisms and in several tissues of most living organisms. In some tissues such as the airway tissues of the lung, the coordinated beating of cilia induces a fluid flow of crucial importance as it allows the c...


[Phys. Rev. E 97, 012403] Published Fri Jan 12, 2018



Shear thinning and shear thickening of a confined suspension of vesicles

2018-01-12T10:00:00+00:00

Author(s): A. Nait Ouhra, A. Farutin, O. Aouane, H. Ez-Zahraouy, A. Benyoussef, and C. Misbah

Widely regarded as an interesting model system for studying flow properties of blood, vesicles are closed membranes of phospholipids that mimic the cytoplasmic membranes of red blood cells. In this study we analyze the rheology of a suspension of vesicles in a confined geometry: the suspension, boun...


[Phys. Rev. E 97, 012404] Published Fri Jan 12, 2018



Theoretical model of chirality-induced helical self-propulsion

2018-01-12T10:00:00+00:00

Author(s): Takaki Yamamoto and Masaki Sano

We recently reported the experimental realization of a chiral artificial microswimmer exhibiting helical self-propulsion [T. Yamamoto and M. Sano, Soft Matter 13, 3328 (2017)]. In the experiment, cholesteric liquid crystal (CLC) droplets dispersed in surfactant solutions swam spontaneously, driven b...


[Phys. Rev. E 97, 012607] Published Fri Jan 12, 2018



Normal modes of weak colloidal gels

2018-01-12T10:00:00+00:00

Author(s): Zsigmond Varga and James W. Swan

The normal modes and relaxation rates of weak colloidal gels are investigated in calculations using different models of the hydrodynamic interactions between suspended particles. The relaxation spectrum is computed for freely draining, Rotne-Prager-Yamakawa, and accelerated Stokesian dynamics approx...


[Phys. Rev. E 97, 012608] Published Fri Jan 12, 2018



Granular response to impact: Topology of the force networks

2018-01-12T10:00:00+00:00

Author(s): T. Takahashi, Abram H. Clark, T. Majmudar, and L. Kondic

The impact of an intruder on granular matter leads to the formation of mesoscopic force networks, which were seen particularly clearly in the recent experiments carried out with photoelastic particles [Clark et al., Phys. Rev. Lett. 114, 144502 (2015)]. These force networks are characterized by comp...


[Phys. Rev. E 97, 012906] Published Fri Jan 12, 2018



Exceptional points near first- and second-order quantum phase transitions

2018-01-11T10:00:00+00:00

Author(s): Pavel Stránský, Martin Dvořák, and Pavel Cejnar

We study the impact of quantum phase transitions (QPTs) on the distribution of exceptional points (EPs) of the Hamiltonian in the complex-extended parameter domain. Analyzing first- and second-order QPTs in the Lipkin-Meshkov-Glick model we find an exponentially and polynomially close approach of EP...


[Phys. Rev. E 97, 012112] Published Thu Jan 11, 2018



Analyzing a stochastic process driven by Ornstein-Uhlenbeck noise

2018-01-11T10:00:00+00:00

Author(s): B. Lehle and J. Peinke

A scalar Langevin-type process $X(t)$ that is driven by Ornstein-Uhlenbeck noise $η(t)$ is non-Markovian. However, the joint dynamics of $X$ and $η$ is described by a Markov process in two dimensions. But even though there exists a variety of techniques for the analysis of Markov processes, it is st...


[Phys. Rev. E 97, 012113] Published Thu Jan 11, 2018



Quantum work relations and response theory in parity-time-symmetric quantum systems

2018-01-11T10:00:00+00:00

Author(s): Bo-Bo Wei

In this work, we show that a universal quantum work relation for a quantum system driven arbitrarily far from equilibrium extends to a parity-time- ($\mathcal{PT}$-) symmetric quantum system with unbroken $\mathcal{PT}$ symmetry, which is a consequence of microscopic reversibility. The quantum Jarzy...


[Phys. Rev. E 97, 012114] Published Thu Jan 11, 2018



Social dilemmas in multistrategy evolutionary potential games

2018-01-11T10:00:00+00:00

Author(s): György Szabó and Gergely Bunth

The nature of social dilemmas is studied in $n$-strategy evolutionary potential games on a square lattice with nearest-neighbor interactions and the logit rule. For symmetric games with symmetric payoff matrices there are no dilemmas because of the coincidence of individual and common interests. The...


[Phys. Rev. E 97, 012305] Published Thu Jan 11, 2018



Structural stability of nonlinear population dynamics

2018-01-11T10:00:00+00:00

Author(s): Simone Cenci and Serguei Saavedra

In population dynamics, the concept of structural stability has been used to quantify the tolerance of a system to environmental perturbations. Yet, measuring the structural stability of nonlinear dynamical systems remains a challenging task. Focusing on the classic Lotka-Volterra dynamics, because ...


[Phys. Rev. E 97, 012401] Published Thu Jan 11, 2018



Dynamic instability in the hook-flagellum system that triggers bacterial flicks

2018-01-11T10:00:00+00:00

Author(s): Mehdi Jabbarzadeh and Henry Chien Fu

Dynamical bending, buckling, and polymorphic transformations of the flagellum are known to affect bacterial motility, but run-reverse-flick motility of monotrichous bacteria also involves the even more flexible hook connecting the flagellum to its rotary motor. Although flick initiation has been hyp...


[Phys. Rev. E 97, 012402] Published Thu Jan 11, 2018



Shear-stress fluctuations and relaxation in polymer glasses

2018-01-11T10:00:00+00:00

Author(s): I. Kriuchevskyi, J. P. Wittmer, H. Meyer, O. Benzerara, and J. Baschnagel

We investigate by means of molecular dynamics simulation a coarse-grained polymer glass model focusing on (quasistatic and dynamical) shear-stress fluctuations as a function of temperature $T$ and sampling time $\mathrm{Δ}t$. The linear response is characterized using (ensemble-averaged) expectation...


[Phys. Rev. E 97, 012502] Published Thu Jan 11, 2018



Three-body correlations and conditional forces in suspensions of active hard disks

2018-01-11T10:00:00+00:00

Author(s): Andreas Härtel, David Richard, and Thomas Speck

Self-propelled Brownian particles show rich out-of-equilibrium physics, for instance, the motility-induced phase separation (MIPS). While decades of studying the structure of liquids have established a deep understanding of passive systems, not much is known about correlations in active suspensions....


[Phys. Rev. E 97, 012606] Published Thu Jan 11, 2018



Anisotropic particles strengthen granular pillars under compression

2018-01-11T10:00:00+00:00

Author(s): Matt Harrington and Douglas J. Durian

We probe the effects of particle shape on the global and local behavior of a two-dimensional granular pillar, acting as a proxy for a disordered solid, under uniaxial compression. This geometry allows for direct measurement of global material response, as well as tracking of all individual particle ...


[Phys. Rev. E 97, 012904] Published Thu Jan 11, 2018



Compression-driven jamming of athermal frictionless spherocylinders in two dimensions

2018-01-11T10:00:00+00:00

Author(s): Theodore Marschall and S. Teitel

We simulate numerically the compression-driven jamming of athermal, frictionless, soft-core spherocylinders in two dimensions, for a range of particle aspect ratios $α$. We find the critical packing fraction ${ϕ}_{J}(α)$ for the jamming transition and the average number of contacts per particle ${z}...


[Phys. Rev. E 97, 012905] Published Thu Jan 11, 2018



Thermal convection in three-dimensional fractured porous media

2018-01-11T10:00:00+00:00

Author(s): C. Mezon, V. V. Mourzenko, J.-F. Thovert, R. Antoine, F. Fontaine, A. Finizola, and P. M. Adler

Thermal convection is numerically computed in three-dimensional (3D) fluid saturated isotropically fractured porous media. Fractures are randomly inserted as two-dimensional (2D) convex polygons. Flow is governed by Darcy's 2D and 3D laws in the fractures and in the porous medium, respectively; exch...


[Phys. Rev. E 97, 013106] Published Thu Jan 11, 2018



Development of an efficient gas kinetic scheme for simulation of two-dimensional incompressible thermal flows

2018-01-11T10:00:00+00:00

Author(s): L. M. Yang, C. Shu, W. M. Yang, and J. Wu

In this work, an efficient gas kinetic scheme is presented for simulation of two-dimensional incompressible thermal flows. In the scheme, the macroscopic governing equations for mass, momentum, and energy conservation are discretized by the finite volume method and the numerical fluxes at the cell i...


[Phys. Rev. E 97, 013305] Published Thu Jan 11, 2018



Disordered multihyperuniformity derived from binary plasmas

2018-01-10T10:00:00+00:00

Author(s): Enrique Lomba, Jean-Jacques Weis, and Salvatore Torquato

Disordered multihyperuniform many-particle systems are exotic amorphous states that allow exquisite color sensing capabilities due to their anomalous suppression of density fluctuations for distinct subsets of particles, as recently evidenced in photoreceptor mosaics in avian retina. Motivated by th...


[Phys. Rev. E 97, 010102(R)] Published Wed Jan 10, 2018



Measuring the equations of state in a relaxed magnetohydrodynamic plasma

2018-01-10T10:00:00+00:00

Author(s): M. Kaur, L. J. Barbano, E. M. Suen-Lewis, J. E. Shrock, A. D. Light, M. R. Brown, and D. A. Schaffner

We report measurements of the equations of state of a fully relaxed magnetohydrodynamic (MHD) laboratory plasma. Parcels of magnetized plasma, called Taylor states, are formed in a coaxial magnetized plasma gun, and are allowed to relax and drift into a closed flux conserving volume. Density, ion te...


[Phys. Rev. E 97, 011202(R)] Published Wed Jan 10, 2018



Crossover from three-dimensional to two-dimensional systems in the nonequilibrium zero-temperature random-field Ising model

2018-01-10T10:00:00+00:00

Author(s): Djordje Spasojević, Svetislav Mijatović, Víctor Navas-Portella, and Eduard Vives

We present extensive numerical studies of the crossover from three-dimensional to two-dimensional systems in the nonequilibrium zero-temperature random-field Ising model with metastable dynamics. Bivariate finite-size scaling hypotheses are presented for systems with sizes $L×L×l$ which explain the ...


[Phys. Rev. E 97, 012109] Published Wed Jan 10, 2018



Level crossings and excess times due to a superposition of uncorrelated exponential pulses

2018-01-10T10:00:00+00:00

Author(s): A. Theodorsen and O. E. Garcia

A well-known stochastic model for intermittent fluctuations in physical systems is investigated. The model is given by a superposition of uncorrelated exponential pulses, and the degree of pulse overlap is interpreted as an intermittency parameter. Expressions for excess time statistics, that is, th...


[Phys. Rev. E 97, 012110] Published Wed Jan 10, 2018



Nonuniversal and anomalous critical behavior of the contact process near an extended defect

2018-01-10T10:00:00+00:00

Author(s): Róbert Juhász and Ferenc Iglói

We consider the contact process near an extended surface defect, where the local control parameter deviates from the bulk one by an amount of $λ(l)−λ(∞)=A{l}^{−s}$, with $l$ being the distance from the surface. We concentrate on the marginal situation $s=1/{ν}_{⊥}$, where ${ν}_{⊥}$ is the critical e...


[Phys. Rev. E 97, 012111] Published Wed Jan 10, 2018



Origin and scaling of chaos in weakly coupled phase oscillators

2018-01-10T10:00:00+00:00

Author(s): Mallory Carlu, Francesco Ginelli, and Antonio Politi

We discuss the behavior of the largest Lyapunov exponent $λ$ in the incoherent phase of large ensembles of heterogeneous, globally coupled, phase oscillators. We show that the scaling with the system size $N$ depends on the details of the spacing distribution of the oscillator frequencies. For suffi...


[Phys. Rev. E 97, 012203] Published Wed Jan 10, 2018



Experimental investigation of the glass transition of polystyrene thin films in a broad frequency range

2018-01-10T10:00:00+00:00

Author(s): Rintaro Inoue, Toshiji Kanaya, Takeshi Yamada, Kaoru Shibata, and Koji Fukao

In this study, we investigate the α process of a polystyrene thin film using inelastic neutron scattering (INS), dielectric relaxation spectroscopy (DRS), and thermal expansion spectroscopy (TES). The DRS and TES measurements exhibited a decrease in glass transition temperature (${T}_{\mathrm{g}}$) ...


[Phys. Rev. E 97, 012501] Published Wed Jan 10, 2018



Attenuation of slow (10–40 eV) electrons in soft nanoparticles: Size matters in argon clusters

2018-01-10T10:00:00+00:00

Author(s): Mathias Winkler and Knut J. Børve

Electron attenuation due to inelastic and elastic scattering in condensed media can often be described in terms of the effective attenuation length (EAL) of the electron. The EAL is thus an important parameter for describing electron transport processes as exemplified by dissipation of energy follow...


[Phys. Rev. E 97, 012604] Published Wed Jan 10, 2018



Characterization of microscopic deformation through two-point spatial correlation functions

2018-01-10T10:00:00+00:00

Author(s): Guan-Rong Huang, Bin Wu, Yangyang Wang, and Wei-Ren Chen

The molecular rearrangements of most fluids under flow and deformation do not directly follow the macroscopic strain field. In this work, we describe a phenomenological method for characterizing such nonaffine deformation via the anisotropic pair distribution function (PDF). We demonstrate how the m...


[Phys. Rev. E 97, 012605] Published Wed Jan 10, 2018



Insensitivity of active nematic liquid crystal dynamics to topological constraints

2018-01-10T10:00:00+00:00

Author(s): Michael M. Norton, Arvind Baskaran, Achini Opathalage, Blake Langeslay, Seth Fraden, Aparna Baskaran, and Michael F. Hagan

Computer simulations are used to study the effect of confinement on the dynamics of active nematic liquid crystals. The authors find that active nematic systems, in contrast to passive systems, are rather insensitive to topological constraints. Topological charges required by container geometry are relegated to a small layer along the boundary, creating a bulklike interior for these active systems.

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[Phys. Rev. E 97, 012702] Published Wed Jan 10, 2018



Stress distribution in two-dimensional silos

2018-01-10T10:00:00+00:00

Author(s): Rodolfo Blanco-Rodríguez and Gabriel Pérez-Ángel

Simulations of a polydispersed two-dimensional silo were performed using molecular dynamics, with different numbers of grains reaching up to 64 000, verifying numerically the model derived by Janssen and also the main assumption that the walls carry part of the weight due to the static friction betw...


[Phys. Rev. E 97, 012903] Published Wed Jan 10, 2018



Two-length-scale turbulence model for self-similar buoyancy-, shock-, and shear-driven mixing

2018-01-10T10:00:00+00:00

Author(s): Brandon E. Morgan, Oleg Schilling, and Tucker A. Hartland

The three-equation $k\text{−}L\text{−}a$ turbulence model [B. Morgan and M. Wickett, Three-equation model for the self-similar growth of Rayleigh-Taylor and Richtmyer-Meshkov instabilities, Phys. Rev. E 91, 043002 (2015)] is extended by the addition of a second length scale equation. It is shown tha...


[Phys. Rev. E 97, 013104] Published Wed Jan 10, 2018



High-speed broadband elastic actuator in water using induced-charge electro-osmosis with a skew structure

2018-01-10T10:00:00+00:00

Author(s): Hideyuki Sugioka and Naoki Nakano

An artificial cilium using ac electro-osmosis (ACEO) is attractive because of its large potentiality for innovative microfluidic applications. However, the ACEO cilium has not been probed experimentally and has a shortcoming that the working frequency range is very narrow. Thus, we here propose an A...


[Phys. Rev. E 97, 013105] Published Wed Jan 10, 2018



Lattice Boltzmann model for high-order nonlinear partial differential equations

2018-01-10T10:00:00+00:00

Author(s): Zhenhua Chai, Nanzhong He, Zhaoli Guo, and Baochang Shi

In this paper, a general lattice Boltzmann (LB) model is proposed for the high-order nonlinear partial differential equation with the form ${∂}_{t}ϕ+{∑}_{k=1}^{m}{α}_{k}{∂}_{x}^{k}{\mathrm{Π}}_{k}(ϕ)=0$ ($1≤k≤m≤6$), ${α}_{k}$ are constant coefficients, ${\mathrm{Π}}_{k}(ϕ)$ are some known differenti...


[Phys. Rev. E 97, 013304] Published Wed Jan 10, 2018



Publisher's Note: Relaxation-type nonlocal inertial-number rheology for dry granular flows [Phys. Rev. E 96, 062909 (2017)]

2018-01-10T10:00:00+00:00

Author(s): Keng-Lin Lee and Fu-Ling Yang

[Phys. Rev. E 97, 019902] Published Wed Jan 10, 2018



Theoretical analysis of the distribution of isolated particles in totally asymmetric exclusion processes: Application to mRNA translation rate estimation

2018-01-09T10:00:00+00:00

Author(s): Khanh Dao Duc, Zain H. Saleem, and Yun S. Song

This paper extends the treatment of a simple stochastic transport model to account for the distribution of particles, and applies it to ribosomes involved in messenger RNA translation. This approach makes it possible to describe properties such as the average distance between particles and the number of collisions. These results can be used as support for recently developed experimental techniques like ribosome profiling.

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[Phys. Rev. E 97, 012106] Published Tue Jan 09, 2018



Casimir amplitudes in topological quantum phase transitions

2018-01-09T10:00:00+00:00

Author(s): M. A. Griffith and M. A. Continentino

Topological phase transitions constitute a new class of quantum critical phenomena. They cannot be described within the usual framework of the Landau theory since, in general, the different phases cannot be distinguished by an order parameter, neither can they be related to different symmetries. In ...


[Phys. Rev. E 97, 012107] Published Tue Jan 09, 2018



Original electric-vertex formulation of the symmetric eight-vertex model on the square lattice is fully nonuniversal

2018-01-09T10:00:00+00:00

Author(s): Roman Krčmár and Ladislav Šamaj

The partition function of the symmetric (zero electric field) eight-vertex model on a square lattice can be formulated either in the original “electric” vertex format or in an equivalent “magnetic” Ising-spin format. In this paper, both electric and magnetic versions of the model are studied numeric...


[Phys. Rev. E 97, 012108] Published Tue Jan 09, 2018



Universal scaling and nonlinearity of aggregate price impact in financial markets

2018-01-09T10:00:00+00:00

Author(s): Felix Patzelt and Jean-Philippe Bouchaud

How and why stock prices move is a centuries-old question still not answered conclusively. More recently, attention shifted to higher frequencies, where trades are processed piecewise across different time scales. Here we reveal that price impact has a universal nonlinear shape for trades aggregated...


[Phys. Rev. E 97, 012304] Published Tue Jan 09, 2018



Microscopic processes controlling the Herschel-Bulkley exponent

2018-01-09T10:00:00+00:00

Author(s): Jie Lin and Matthieu Wyart

The flow curve of various yield stress materials is singular as the strain rate vanishes and can be characterized by the so-called Herschel-Bulkley exponent $n=1/β$. A mean-field approximation due to Hebraud and Lequeux (HL) assumes mechanical noise to be Gaussian and leads to $β=2$ in rather good a...


[Phys. Rev. E 97, 012603] Published Tue Jan 09, 2018



Effect of particle stiffness on contact dynamics and rheology in a dense granular flow

2018-01-09T10:00:00+00:00

Author(s): S. Bharathraj and V. Kumaran

Dense granular flows have been well described by the Bagnold rheology, even when the particles are in the multibody contact regime and the coordination number is greater than 1. This is surprising, because the Bagnold law should be applicable only in the instantaneous collision regime, where the tim...


[Phys. Rev. E 97, 012902] Published Tue Jan 09, 2018



Partial entropic stabilization of lattice Boltzmann magnetohydrodynamics

2018-01-09T10:00:00+00:00

Author(s): Christopher Flint and George Vahala

The entropic lattice Boltzmann algorithm of Karlin et al. [Phys. Rev. E 90, 031302 (2014)] is partially extended to magnetohydrodynamics, based on the Dellar model of introducing a vector distribution for the magnetic field. This entropic ansatz is now applied only to the scalar particle distributio...


[Phys. Rev. E 97, 013302] Published Tue Jan 09, 2018



Group-wave resonances in nonlinear dispersive media: The case of gravity water waves

2018-01-08T10:00:00+00:00

Author(s): A. V. Slunyaev

The dynamics of coherent nonlinear wave groups is shown to be drastically different from the classical scenario of weakly nonlinear wave interactions. The coherent groups generate nonresonant (bound) waves which can be synchronized with other linear waves. By virtue of the revealed mechanism, the gr...


[Phys. Rev. E 97, 010202(R)] Published Mon Jan 08, 2018



Magnetic flux conservation in an imploding plasma

2018-01-08T10:00:00+00:00

Author(s): F. García-Rubio, J. Sanz, and R. Betti

The theory of magnetic flux conservation is developed for a subsonic plasma implosion and used to describe the magnetic flux degradation in the MagLIF concept [S. A. Slutz et al., Phys. Plasmas 17, 056303 (2010)]. Depending on the initial magnetic Lewis and Péclet numbers and the electron Hall param...


[Phys. Rev. E 97, 011201(R)] Published Mon Jan 08, 2018



Memory effects in active particles with exponentially correlated propulsion

2018-01-08T10:00:00+00:00

Author(s): Cato Sandford and Alexander Y. Grosberg

The Ornstein-Uhlenbeck particle (OUP) model imagines a microscopic swimmer propelled by an active force which is correlated with itself on a finite time scale. Here we investigate the influence of external potentials on an ideal suspension of OUPs, in both one and two spatial dimensions, with partic...


[Phys. Rev. E 97, 012602] Published Mon Jan 08, 2018



Localized instabilities and spinodal decomposition in driven systems in the presence of elasticity

2018-01-08T10:00:00+00:00

Author(s): Esteban Meca, Andreas Münch, and Barbara Wagner

We study numerically and analytically the instabilities associated with phase separation in a solid layer on which an external material flux is imposed. The first instability is localized within a boundary layer at the exposed free surface by a process akin to spinodal decomposition. In the limiting...


[Phys. Rev. E 97, 012801] Published Mon Jan 08, 2018



Higher-order corrections to the effective potential close to the jamming transition in the perceptron model

2018-01-05T10:00:00+00:00

Author(s): Ada Altieri

In view of the results achieved in a previously related work [A. Altieri, S. Franz, and G. Parisi, J. Stat. Mech. (2016) 093301], regarding a Plefka-like expansion of the free energy up to the second order in the perceptron model, we improve the computation here focusing on the role of third-order c...


[Phys. Rev. E 97, 012103] Published Fri Jan 05, 2018



Route from discreteness to the continuum for the Tsallis $q$-entropy

2018-01-05T10:00:00+00:00

Author(s): Thomas Oikonomou and G. Baris Bagci

The existence and exact form of the continuum expression of the discrete nonlogarithmic $q$-entropy is an important open problem in generalized thermostatistics, since its possible lack implies that nonlogarithmic $q$-entropy is irrelevant for the continuous classical systems. In this work, we show ...


[Phys. Rev. E 97, 012104] Published Fri Jan 05, 2018



Stochastic quantum thermodynamics, entropy production, and transport properties of a bosonic system

2018-01-05T10:00:00+00:00

Author(s): Mário J. de Oliveira

The transport properties of a bosonic chain have been calculated by placing the ends of the chain in contact with thermal and particle reservoirs at different temperatures and chemical potentials. The contact with the reservoirs is described by the use of a quantum Fokker-Planck-Kramers equation, wh...


[Phys. Rev. E 97, 012105] Published Fri Jan 05, 2018



Magneto-optic dynamics in a ferromagnetic nematic liquid crystal

2018-01-05T10:00:00+00:00

Author(s): Tilen Potisk, Alenka Mertelj, Nerea Sebastián, Natan Osterman, Darja Lisjak, Helmut R. Brand, Harald Pleiner, and Daniel Svenšek

We investigate dynamic magneto-optic effects in a ferromagnetic nematic liquid crystal experimentally and theoretically. Experimentally we measure the magnetization and the phase difference of the transmitted light when an external magnetic field is applied. As a model we study the coupled dynamics ...


[Phys. Rev. E 97, 012701] Published Fri Jan 05, 2018



Patterning of a cohesionless granular layer under pure shear

2018-01-05T10:00:00+00:00

Author(s): Héctor Alarcón, Jean-Christophe Géminard, and Francisco Melo

The response of a thin layer of granular material to an external pure shear imposed at its base is investigated. The experiments show that, even for noncohesive materials, the resulting deformation of the material is inhomogeneous. Indeed, a novel smooth pattern, consisting of a periodic modulation ...


[Phys. Rev. E 97, 012901] Published Fri Jan 05, 2018



Electrohydrodynamic instability of premixed flames under manipulations of dc electric fields

2018-01-05T10:00:00+00:00

Author(s): Yihua Ren, Wei Cui, and Shuiqing Li

We report an electrohydrodynamic instability in a premixed stagnation flame under manipulations of a dc electric field. This instability occurs when the electric field strength is at a certain value below the breakdown threshold, which is 0.75 kV/cm in the experimental setup. Above this value the fl...


[Phys. Rev. E 97, 013103] Published Fri Jan 05, 2018



Synchronized oscillations and acoustic fluidization in confined granular materials

2018-01-04T10:00:00+00:00

Author(s): F. Giacco, L. de Arcangelis, M. Pica Ciamarra, and E. Lippiello

According to the acoustic fluidization hypothesis, elastic waves at a characteristic frequency form inside seismic faults even in the absence of an external perturbation. These waves are able to generate a normal stress which contrasts the confining pressure and promotes failure. Here, we study the ...


[Phys. Rev. E 97, 010901(R)] Published Thu Jan 04, 2018



Subordinated stochastic processes with aged operational time

2018-01-04T10:00:00+00:00

Author(s): V. P. Shkilev

In this paper, subordinated stochastic processes are considered, where the renewal process acting as the operational time. It is assumed that the observation of the process begins at a certain time after the start of the renewal process. A recurrence formula was derived for calculating the multipoin...


[Phys. Rev. E 97, 012102] Published Thu Jan 04, 2018



Effective equilibrium states in mixtures of active particles driven by colored noise

2018-01-04T10:00:00+00:00

Author(s): René Wittmann, J. M. Brader, A. Sharma, and U. Marini Bettolo Marconi

We consider the steady-state behavior of pairs of active particles having different persistence times and diffusivities. To this purpose we employ the active Ornstein-Uhlenbeck model, where the particles are driven by colored noises with exponential correlation functions whose intensities and correl...


[Phys. Rev. E 97, 012601] Published Thu Jan 04, 2018



Correlation versus randomization of jerky flow in an AlMgScZr alloy using acoustic emission

2018-01-04T10:00:00+00:00

Author(s): T. A. Lebedkina, D. A. Zhemchuzhnikova, and M. A. Lebyodkin

Jerky flow in solids results from collective dynamics of dislocations which gives rise to serrated deformation curves and a complex evolution of the strain heterogeneity. A rich example of this phenomenon is the Portevin–Le Chatelier effect in alloys. The corresponding spatiotemporal patterns showed...


[Phys. Rev. E 97, 013001] Published Thu Jan 04, 2018



Multiple eigenmodes of the Rayleigh-Taylor instability observed for a fluid interface with smoothly varying density

2018-01-04T10:00:00+00:00

Author(s): C. X. Yu, C. Xue, J. Liu, X. Y. Hu, Y. Y. Liu, W. H. Ye, L. F. Wang, J. F. Wu, and Z. F. Fan

In this article, multiple eigen-systems including linear growth rates and eigen-functions have been discovered for the Rayleigh-Taylor instability (RTI) by numerically solving the Sturm-Liouville eigen-value problem in the case of two-dimensional plane geometry. The system called the first mode has ...


[Phys. Rev. E 97, 013102] Published Thu Jan 04, 2018



Announcement: Corrections in Physical Review publications

2018-01-03T10:00:00+00:00

[Phys. Rev. E 97, 010002] Published Wed Jan 03, 2018



Drive-induced delocalization in the Aubry-André model

2018-01-03T10:00:00+00:00

Author(s): S. Ray, A. Ghosh, and S. Sinha

Motivated by the recent experiment by Bordia et al. [Nat. Phys. 13, 460 (2017)], we study the single particle delocalization phenomena of the Aubry-André (AA) model subjected to periodic drives. In two distinct cases we construct an equivalent classical description to illustrate that the drive-induc...


[Phys. Rev. E 97, 010101(R)] Published Wed Jan 03, 2018



Optimal nonlinear filtering using the finite-volume method

2018-01-03T10:00:00+00:00

Author(s): Colin Fox, Malcolm E. K. Morrison, Richard A. Norton, and Timothy C. A. Molteno

Optimal sequential inference, or filtering, for the state of a deterministic dynamical system requires simulation of the Frobenius-Perron operator, that can be formulated as the solution of a continuity equation. For low-dimensional, smooth systems, the finite-volume numerical method provides a solu...


[Phys. Rev. E 97, 010201(R)] Published Wed Jan 03, 2018



Out-of-time-order fluctuation-dissipation theorem

2018-01-03T10:00:00+00:00

Author(s): Naoto Tsuji, Tomohiro Shitara, and Masahito Ueda

We prove a generalized fluctuation-dissipation theorem for a certain class of out-of-time-ordered correlators (OTOCs) with a modified statistical average, which we call bipartite OTOCs, for general quantum systems in thermal equilibrium. The difference between the bipartite and physical OTOCs define...


[Phys. Rev. E 97, 012101] Published Wed Jan 03, 2018



Modeling the complexity of acoustic emission during intermittent plastic deformation: Power laws and multifractal spectra

2018-01-03T10:00:00+00:00

Author(s): Jagadish Kumar and G. Ananthakrishna

Scale-invariant power-law distributions for acoustic emission signals are ubiquitous in several plastically deforming materials. However, power-law distributions for acoustic emission energies are reported in distinctly different plastically deforming situations such as hcp and fcc single and polycr...


[Phys. Rev. E 97, 012201] Published Wed Jan 03, 2018



Obtaining amplitude-modulated bursting by multiple-frequency slow parametric modulation

2018-01-03T10:00:00+00:00

Author(s): Xiujing Han, Mengke Wei, Qinsheng Bi, and Jürgen Kurths

Amplitude-modulated bursting (AMB), characterized by oscillations appearing in the envelope of the active phase of bursting, is a novel class of bursting rhythms reported recently. The present paper aims to report a simple and effective method, i.e., the multiple-frequency slow parametric modulation...


[Phys. Rev. E 97, 012202] Published Wed Jan 03, 2018



Lumping of degree-based mean-field and pair-approximation equations for multistate contact processes

2018-01-03T10:00:00+00:00

Author(s): Charalampos Kyriakopoulos, Gerrit Grossmann, Verena Wolf, and Luca Bortolussi

Contact processes form a large and highly interesting class of dynamic processes on networks, including epidemic and information-spreading networks. While devising stochastic models of such processes is relatively easy, analyzing them is very challenging from a computational point of view, particula...


[Phys. Rev. E 97, 012301] Published Wed Jan 03, 2018



Relaxation dynamics of maximally clustered networks

2018-01-03T10:00:00+00:00

Author(s): Janis Klaise and Samuel Johnson

We study the relaxation dynamics of fully clustered networks (maximal number of triangles) to an unclustered state under two different edge dynamics—the double-edge swap, corresponding to degree-preserving randomization of the configuration model, and single edge replacement, corresponding to full r...


[Phys. Rev. E 97, 012302] Published Wed Jan 03, 2018



Mutual influence of molecular diffusion in gas and surface phases

2018-01-03T10:00:00+00:00

Author(s): Takuma Hori, Takafumi Kamino, Yuta Yoshimoto, Shu Takagi, and Ikuya Kinefuchi

We develop molecular transport simulation methods that simultaneously deal with gas- and surface-phase diffusions to determine the effect of surface diffusion on the overall diffusion coefficients. The phenomenon of surface diffusion is incorporated into the test particle method and the mean square ...


[Phys. Rev. E 97, 013101] Published Wed Jan 03, 2018



Causes of plasma column contraction in surface-wave-driven discharges in argon at atmospheric pressure

2018-01-03T10:00:00+00:00

Author(s): Marco Antonio Ridenti, Jayr de Amorim, Arnaldo Dal Pino, Vasco Guerra, and George Petrov

In this work we compute the main features of a surface-wave-driven plasma in argon at atmospheric pressure in view of a better understanding of the contraction phenomenon. We include the detailed chemical kinetics dynamics of Ar and solve the mass conservation equations of the relevant neutral excit...


[Phys. Rev. E 97, 013201] Published Wed Jan 03, 2018



Probabilistic low-rank factorization accelerates tensor network simulations of critical quantum many-body ground states

2018-01-03T10:00:00+00:00

Author(s): Lucas Kohn, Ferdinand Tschirsich, Maximilian Keck, Martin B. Plenio, Dario Tamascelli, and Simone Montangero

We provide evidence that randomized low-rank factorization is a powerful tool for the determination of the ground-state properties of low-dimensional lattice Hamiltonians through tensor network techniques. In particular, we show that randomized matrix factorization outperforms truncated singular val...


[Phys. Rev. E 97, 013301] Published Wed Jan 03, 2018



Publisher's Note: Inverse Ising problem in continuous time: A latent variable approach [Phys. Rev. E 96, 062104 (2017)]

2018-01-03T10:00:00+00:00

Author(s): Christian Donner and Manfred Opper

[Phys. Rev. E 97, 019901] Published Wed Jan 03, 2018