An analysis of Brownian motion based upon a ''Langevin equation'' form of Newton's second law provides a physically motivated introduction to the theory of continuous Markov processes, which in turn illuminates the subtle mathematical underpinnings of the Langevin equation. But the Langevin approach to Brownian motion requires one to assume that the collisional forces of the bath molecules on the Brownian particle artfully resolve themselves into a ''dissipative drag'' component and a ''zero‐mean fluctuating'' component. A physically more plausible approach is provided by a simple discrete‐state jump Markov process that models in a highly idealized way the immediate effects of individual molecular collisions on the velocity of the Brownian ...
Non-Markovian processes can often be turned Markovian by enlarging the set of variables. Here we sho...
Within the framework of the theory of hydrodynamic fluctuations the Brownian motion of a spherical p...
A microscopic theory of molecular motion in classical monatomic liquids, proposed by Glass and Rice ...
We present an insightful `derivation' of the Langevin equation and the fluctuation dissipation theor...
The Langevin equation was proposed in 1908 by Paul Langevin, to describe Brownian motion, that is th...
A number of random processes in various fields of science is described by phenomenological equations...
One reason why Brownian motion and Johnson noise are difficult subjects to teach is that their mathe...
We propose an approach for generation of deterministic Brownian motion. By adding an additional degr...
The Langevin equation (LE) for the one-dimensional relativistic Brownian motion is derived from a mi...
In the frames of classical mechanics, the generalized Langevin equation is derived for an arbitrary ...
The study deals with atoms and charged particles. The work is aimed at development of the theory of ...
The Brownian motion of a microscopic particle in a fluid is one of the cornerstones of statistical p...
The equation for Brownian motion is the Langevin equation which may be converted into a Fokker Planc...
We start by considering the Brownian motion of a large spherical particle of mass M immersed in a no...
The experimental access to short timescales has pointed to the inadequacy of the standard Langevin t...
Non-Markovian processes can often be turned Markovian by enlarging the set of variables. Here we sho...
Within the framework of the theory of hydrodynamic fluctuations the Brownian motion of a spherical p...
A microscopic theory of molecular motion in classical monatomic liquids, proposed by Glass and Rice ...
We present an insightful `derivation' of the Langevin equation and the fluctuation dissipation theor...
The Langevin equation was proposed in 1908 by Paul Langevin, to describe Brownian motion, that is th...
A number of random processes in various fields of science is described by phenomenological equations...
One reason why Brownian motion and Johnson noise are difficult subjects to teach is that their mathe...
We propose an approach for generation of deterministic Brownian motion. By adding an additional degr...
The Langevin equation (LE) for the one-dimensional relativistic Brownian motion is derived from a mi...
In the frames of classical mechanics, the generalized Langevin equation is derived for an arbitrary ...
The study deals with atoms and charged particles. The work is aimed at development of the theory of ...
The Brownian motion of a microscopic particle in a fluid is one of the cornerstones of statistical p...
The equation for Brownian motion is the Langevin equation which may be converted into a Fokker Planc...
We start by considering the Brownian motion of a large spherical particle of mass M immersed in a no...
The experimental access to short timescales has pointed to the inadequacy of the standard Langevin t...
Non-Markovian processes can often be turned Markovian by enlarging the set of variables. Here we sho...
Within the framework of the theory of hydrodynamic fluctuations the Brownian motion of a spherical p...
A microscopic theory of molecular motion in classical monatomic liquids, proposed by Glass and Rice ...