E
Edgar Avalos
Researcher at Tohoku University
Publications - 28
Citations - 723
Edgar Avalos is an academic researcher from Tohoku University. The author has contributed to research in topics: Nonlinear system & Virial coefficient. The author has an hindex of 10, co-authored 26 publications receiving 642 citations. Previous affiliations of Edgar Avalos include National Central University & Universidad Autónoma Metropolitana.
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Solitary waves in the granular chain
TL;DR: In this paper, the authors introduce the physics of solitary waves in alignments of elastic beads, such as glass beads or stainless steel beads, and show that any impulse propagates as a new kind of highly interactive solitary wave through such an alignment and that the existence of these waves seems to present a need to re-examine the very definition of equilibrium.
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Vapour—liquid equilibrium of the square-well fluid of variable range via a hybrid simulation approach
TL;DR: In this article, the equilibrium between vapour and liquid in a square-well system has been determined by a hybrid simulation approach combining chemical potentials calculated via the Gibbs ensemble Monte Carlo technique with pressures calculated by the standard NVT Monte Carlo method.
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Frustrated phases under three-dimensional confinement simulated by a set of coupled Cahn–Hilliard equations
TL;DR: A set of coupled Cahn-Hilliard equations is numerically studied as a means to find morphologies of diblock copolymers in three-dimensional spherical confinement to find a variety of energy minimizers including rings, tennis balls, Janus balls and multipods.
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Transformation of Block Copolymer Nanoparticles from Ellipsoids with Striped Lamellae into Onionlike Spheres and Dynamical Control via Coupled Cahn-Hilliard Equations.
TL;DR: The experimental results of annealing block copolymer nanoparticles and a theoretical model to describe the morphological transformation of ellipsoids with striped lamellae into onionlike spheres are presented and it is anticipated that the proposed approach will facilitate the design and more precise control of experiments involving various kinds ofAnnealing processes.
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How solitary waves collide in discrete granular alignments.
Edgar Avalos,Surajit Sen +1 more
TL;DR: Arguments and associated simulations are presented to address a crucial unknown, namely, why the secondary solitary waves must form in an intrinsically nonlinear many-body system.