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Analysis of stochastically forced equilibria and noise-induced transitions in nonlinear discrete systems
Computer Research and Modeling, 2013, v. 5, no. 4, pp. 559-571Views (last year): 1. Citations: 2 (RSCI).Stochastically forced discrete dynamical systems are considered. Using first approximation systems, we study dynamics of deviations of stochastic solutions from deterministic equilibria. Necessary and sufficient conditions of the existence of stable stationary solutions of equations for mean-square deviations are derived. Stationary values of these mean-square deviations are used for the estimations of the dispersion of random states nearby stable equilibria and analysis of noise-induced transitions. Constructive application of the suggested technique to the analysis of various stochastic regimes in Ricker population model with Allee effect is demonstrated.
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Motion of DNA open states influenced by random force
Computer Research and Modeling, 2015, v. 7, no. 6, pp. 1295-1307Views (last year): 3.It is known that in the native state the DNA molecule always contains some amount of locally unwound regions, often called the open states of DNA. It is believed that these states play an important role in DNA-protein recognition and that the study of the open states dynamics may shed further light on the mechanisms of regulation of transcription and replication. In this paper we consider the effect of the thermostat on the movement of the open states in the artificial sequence consisting of four homogeneous regions. We construct the energetic profile of the sequence and investigate the trajectories of the movement of the open states under the action of a random force.
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Numerical study of the Holstein model in different thermostats
Computer Research and Modeling, 2024, v. 16, no. 2, pp. 489-502Based on the Holstein Hamiltonian, the dynamics of the charge introduced into the molecular chain of sites was modeled at different temperatures. In the calculation, the temperature of the chain is set by the initial data ¡ª random Gaussian distributions of velocities and site displacements. Various options for the initial charge density distribution are considered. Long-term calculations show that the system moves to fluctuations near a new equilibrium state. For the same initial velocities and displacements, the average kinetic energy, and, accordingly, the temperature of the T chain, varies depending on the initial distribution of the charge density: it decreases when a polaron is introduced into the chain, or increases if at the initial moment the electronic part of the energy is maximum. A comparison is made with the results obtained previously in the model with a Langevin thermostat. In both cases, the existence of a polaron is determined by the thermal energy of the entire chain.
According to the simulation results, the transition from the polaron mode to the delocalized state occurs in the same range of thermal energy values of a chain of $N$ sites ~ $NT$ for both thermostat options, with an additional adjustment: for the Hamiltonian system the temperature does not correspond to the initially set one, but is determined after long-term calculations from the average kinetic energy of the chain.
In the polaron region, the use of different methods for simulating temperature leads to a number of significant differences in the dynamics of the system. In the region of the delocalized state of charge, for high temperatures, the results averaged over a set of trajectories in a system with a random force and the results averaged over time for a Hamiltonian system are close, which does not contradict the ergodic hypothesis. From a practical point of view, for large temperatures T ≈ 300 K, when simulating charge transfer in homogeneous chains, any of these options for setting the thermostat can be used.
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International Interdisciplinary Conference "Mathematics. Computing. Education"