General continuum approach for dissipative systems of repulsive particles

A very general continuum based approach to model both low- and high cycle fatiguebehaviour is described. The approach allows for both isotropic and anisotropic properties undervery general random multiaxial loading histories.

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Transport and fluctuations in nonlinear-dissipative systems: role of interparticle collisions

Nonlinear Analysis Modelling and Control ◽

10.15388/na.1999.4.0.15249 ◽

1999 ◽

Vol 4 ◽

pp. 31-86 ◽

Cited By ~ 1

Author(s):

R. Katilius ◽

A. Matulionis ◽

R. Raguotis ◽

I. Matulionienė

Keyword(s):

Electric Fields ◽

Carrier Density ◽

Experimental Results ◽

Dissipative Systems ◽

Doped Semiconductors ◽

Electron Diffusion ◽

Electron Collisions ◽

Electric Noise ◽

Diffusion Phenomena

The goal of the paper is to overview contemporary theoretical and experimental research of the microwave electric noise and fluctuations of hot carriers in semiconductors, revealing sensitivity of the noise spectra to non-linearity in the applied electric field strength and, especially, in the carrier density. During the last years, investigation of electronic noise and electron diffusion phenomena in doped semiconductors was in a rapid progress. By combining analytic and Monte Carlo methods as well as the available experimental results on noise, it became possible to obtain the electron diffusion coefficients in the range of electric fields where inter-electron collisions are important and Price’s relation is not necessarily valid. Correspondingly, a special attention to the role of inter-electron collisions and of the non-linearity in the carrier density while shaping electric noise and diffusion phenomena in the non-equilibrium states will be paid. The basic and up-to-date information will be presented on methods and advances in this contemporary field - the field in which methods of non-linear analytic and computational analysis are indispensable while seeking coherent understanding and interpretation of experimental results.

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Fluctuation Relations for Dissipative Systems in Constant External Magnetic Field: Theory and Molecular Dynamics Simulations

Entropy ◽

10.3390/e23020146 ◽

2021 ◽

Vol 23 (2) ◽

pp. 146

Author(s):

Alessandro Coretti ◽

Lamberto Rondoni ◽

Sara Bonella

Keyword(s):

Magnetic Field ◽

Molecular Dynamics ◽

External Magnetic Field ◽

Molecular Dynamics Simulations ◽

Nonequilibrium Molecular Dynamics ◽

Dissipative Systems ◽

Common Belief ◽

Fluctuation Relations ◽

Dynamics Simulations ◽

Constant External Magnetic Field

We illustrate how, contrary to common belief, transient Fluctuation Relations (FRs) for systems in constant external magnetic field hold without the inversion of the field. Building on previous work providing generalized time-reversal symmetries for systems in parallel external magnetic and electric fields, we observe that the standard proof of these important nonequilibrium properties can be fully reinstated in the presence of net dissipation. This generalizes recent results for the FRs in orthogonal fields—an interesting but less commonly investigated geometry—and enables direct comparison with existing literature. We also present for the first time a numerical demonstration of the validity of the transient FRs with nonzero magnetic field via nonequilibrium molecular dynamics simulations of a realistic model of liquid NaCl.

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Statistical properties of the model parameters in the continuum approach to high-cycle fatigue

Probabilistic Engineering Mechanics ◽

10.1016/j.probengmech.2021.103117 ◽

2021 ◽

Vol 63 ◽

pp. 103117

Author(s):

Osmo Kaleva ◽

Heikki Orelma

Keyword(s):

High Cycle Fatigue ◽

Statistical Properties ◽

Model Parameters ◽

Cycle Fatigue ◽

Continuum Approach ◽

The Continuum

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Tunneling conduction in disordered dissipative systems

The Journal of Chemical Physics ◽

10.1063/1.450546 ◽

1986 ◽

Vol 84 (2) ◽

pp. 976-985 ◽

Cited By ~ 8

Author(s):

Philip Phillips

Keyword(s):

Dissipative Systems ◽

Tunneling Conduction

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Polaritonic XY-Ising machine

Nanophotonics ◽

10.1515/nanoph-2020-0162 ◽

2020 ◽

Vol 9 (13) ◽

pp. 4127-4138 ◽

Cited By ~ 2

Author(s):

Kirill P. Kalinin ◽

Alberto Amo ◽

Jacqueline Bloch ◽

Natalia G. Berloff

Keyword(s):

Dissipative Systems ◽

Phase Information ◽

Physical Origin ◽

Continuous Spin ◽

Network Nodes ◽

Computing Platform ◽

Ability To Act ◽

Spin Hamiltonians ◽

Long Range Interactions ◽

Accuracy And Stability

AbstractGain-dissipative systems of various physical origin have recently shown the ability to act as analogue minimisers of hard combinatorial optimisation problems. Whether or not these proposals will lead to any advantage in performance over the classical computations depends on the ability to establish controllable couplings for sufficiently dense short- and long-range interactions between the spins. Here, we propose a polaritonic XY-Ising machine based on a network of geometrically isolated polariton condensates capable of minimising discrete and continuous spin Hamiltonians. We elucidate the performance of the proposed computing platform for two types of couplings: relative and absolute. The interactions between the network nodes might be controlled by redirecting the emission between the condensates or by sending the phase information between nodes using resonant excitation. We discuss the conditions under which the proposed machine leads to a pure polariton simulator with pre-programmed couplings or results in a hybrid classical polariton simulator. We argue that the proposed architecture for the remote coupling control offers an improvement over geometrically coupled condensates in both accuracy and stability as well as increases versatility, range, and connectivity of spin Hamiltonians that can be simulated with polariton networks.

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