Diffusion of active particles with stochastic torques modeled as<i>α</i>-stable noise

Nötel, Jörg; Sokolov, Igor M.; Schimansky‐Geier, Lutz

doi:10.1088/1751-8121/50/3/034003

Cited by 13 publications

(23 citation statements)

References 46 publications

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“…The colored symbols are obtained from simulations according to equations (22), with the definition of the position angle β, given by (2). The black dashed lines correspond to equation (32). The approximations (32) fit the simulation results well for the small noise intensity σ 2 = 0.01.…”

Section: Small Noise Strength: Steady State -Gaussian White Noisementioning

confidence: 78%

Search and return model for stochastic path integrators

Noetel

Freitas

Macau

et al. 2018

Chaos: An Interdisciplinary Journal of Nonlinear Science

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1 arXiv:1807.11261v1 [cond-mat.stat-mech] 30 Jul 2018We extend a recently introduced prototypical stochastic model describing uniformly the search and return of objects looking for new food sources around a given home.The model describes the kinematic motion of the object with constant speed in two dimensions. The angular dynamics is driven by noise and describes a "pursuit" and "escape" behavior of the heading and the position vectors. Pursuit behavior ensures the return to the home and the escaping between the two vectors realizes exploration of space in the vicinity of the given home. Noise is originated by environmental influences and during decision making of the object. We take symmetric α-stable noise since such noise is observed in experiments. We now investigate for the simplest possible case, the consequences of limited knowledge of the position angle of the home. We find that both noise type and noise strength can significantly increase the probability of returning to the home. First, we review shortly main findings of the model presented in the former manuscript. These are the stationary distance distribution of the noise driven conservative dynamics and the observation of an optimal noise for finding new food sources. Afterwards, we generalize the model by adding a constant shift γ within the interaction rule between the two vectors. The latter might be created by a permanent uncertainty of the correct home position. Non vanishing shifts transform the kinematics of the searcher to a dissipative dynamics. For the latter we discuss the novel deterministic properties and calculate the stationary spatial distribution around the home.

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Section: Small Noise Strength: Steady State -Gaussian White Noisementioning

confidence: 78%

Search and return model for stochastic path integrators

Noetel

Freitas

Macau

et al. 2018

Chaos: An Interdisciplinary Journal of Nonlinear Science

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“…is a nonmonotonous function of v. Clearly, such a nonlinear friction only dissipate energy, i.e., it does not lead to the active Lévy motion [70,71]. In Ref.…”

Section: Resultsmentioning

confidence: 99%

Nonlinear friction in underdamped anharmonic stochastic oscillators

Capała,

Dybiec,

Gudowska-Nowak

2020

Preprint

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Non-equilibrium stationary states of overdamped anharmonic stochastic oscillators driven by Lévy noise are typically multimodal. The very same situation is recorded for an underdamped Lévy noise driven motion in single-well potentials with linear friction. Within current manuscript we relax the assumption that the friction experienced by a particle is linear. Using computer simulations, we study underdamped motions in single-well potentials in the regime of nonlinear friction. We demonstrate that it is relatively easy to observe multimodality in the velocity distribution as it is determined by the friction itself and it is the same as the multimodality in the overdamped case with the analogous deterministic force. Contrary to the velocity marginal density, it is more difficult to induce multimodality in the position. Nevertheless, for a fine-tuned nonlinear friction, the spatial multimodality can be recorded.

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“…Thus, as assumed in the model, the acceleration acts perpendicular to the velocity. We note that both vector components have the same acting noise at time t [49,50,52]. Applying the Stratonovich calculus gives for the increments of both velocity components v x (t) = v 0 cos(φ(t)) and v y (t) = v 0 sin(φ(t)) in lowest order in dW t and dt…”

Section: Adiabatic Elimination In Two Dimensionsmentioning

confidence: 99%

“…A similar systematic reduction procedure in case of ABPs is nowadays still missing. Here, we fill this gap for the simple case of a micro-swimmer with constant speed as studied in [48][49][50][51][52][53][54][55][56][57][58][59] and in many other applications. We will proceed in a similar way as it is presented in Sec.…”

Section: Introductionmentioning

confidence: 99%

Eliminating inertia in a stochastic model of a micro-swimmer with constant speed

Milster

Nötel

Sokolov

et al. 2017

Eur. Phys. J. Spec. Top.

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We are concerned with the dynamical description of the motion of a stochastic micro-swimmer with constant speed and fluctuating orientation in the long time limit by adiabatic elimination of the orientational variable. Starting with the corresponding full set of Langevin equations, we eliminate the memory in the stochastic orientation and obtain a stochastic equation for the position alone in the overdamped limit. An equivalent procedure based on the Fokker-Planck equation is presented as well.

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Diffusion of active particles with stochastic torques modeled asα-stable noise

Cited by 13 publications

References 46 publications

Search and return model for stochastic path integrators

Search and return model for stochastic path integrators

Nonlinear friction in underdamped anharmonic stochastic oscillators

Eliminating inertia in a stochastic model of a micro-swimmer with constant speed

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