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In mathematics
Mathematics

Mathematics is the study of quantity, structure, space, change, and related topics of pattern and form. Mathematicians seek out patterns whether found in numbers, space, natural science, computers, imaginary abstractions, or elsewhere....
 and statistical mechanics
Statistical mechanics

Statistical mechanics is the application of probability theory, which includes Mathematics tools for dealing with large populations, to the field of mechanics, which is concerned with the motion of particles or objects when subjected to a force....
, a Markov process
Markov process

A Markov process, named after the Russian mathematician Andrey Markov, is a mathematical model for the random evolution of a memoryless system, that is, one for which the likelihood of a given future state, at any given moment, depends only on its present state, and not on any past states....
 is said to show detailed balance if the transition rates between each pair of states i and j in the state space obey

where P is the Markov transition matrix (transition probability), ie Pij = P( Xt =j | Xt−1 = i ); and and are the equilibrium probabilities of being in states i and j, respectively.

The definition carries over straightforwardly to continuous variables, where becomes a probability density, and P a transition kernel:

A Markov process that satisfies the detailed balance equations is said to be a reversible Markov process or reversible Markov chain with respect to .

Note that the detailed balance condition is stronger than that required merely for a stationary distribution.






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In mathematics
Mathematics

Mathematics is the study of quantity, structure, space, change, and related topics of pattern and form. Mathematicians seek out patterns whether found in numbers, space, natural science, computers, imaginary abstractions, or elsewhere....
 and statistical mechanics
Statistical mechanics

Statistical mechanics is the application of probability theory, which includes Mathematics tools for dealing with large populations, to the field of mechanics, which is concerned with the motion of particles or objects when subjected to a force....
, a Markov process
Markov process

A Markov process, named after the Russian mathematician Andrey Markov, is a mathematical model for the random evolution of a memoryless system, that is, one for which the likelihood of a given future state, at any given moment, depends only on its present state, and not on any past states....
 is said to show detailed balance if the transition rates between each pair of states i and j in the state space obey

where P is the Markov transition matrix (transition probability), ie Pij = P( Xt =j | Xt−1 = i ); and and are the equilibrium probabilities of being in states i and j, respectively.

The definition carries over straightforwardly to continuous variables, where becomes a probability density, and P a transition kernel:

A Markov process that satisfies the detailed balance equations is said to be a reversible Markov process or reversible Markov chain with respect to .

Note that the detailed balance condition is stronger than that required merely for a stationary distribution. It applies separately pairwise to each pair of states, so a steady-state probability current A -> B -> C -> A does not suffice.

Detailed balance is a weaker condition than requiring the transition matrix to be symmetric, Pij = Pji. That would imply that the uniform distribution over the states would automatically be an equilibrium distribution. However, for continuous systems it may be possible to continuously transform the co-ordinates until a uniform metric is the equilibrium distribution, with a transition kernel which then is symmetric. In the discrete case it may be possible to achieve something similar, by breaking the Markov states into a degeneracy of sub-states.

Such an invariance is a supporting justification for the principle of equal a-priori probability in statistical mechanics.

See also


  • Gibbs sampling
    Gibbs sampling

    In mathematics and physics, Gibbs sampling is an algorithm to generate a sequence of samples from the joint probability of two or more random variables....
  • Master equation
    Master equation

    In physics, a master equation is a phenomenological set of first-order differential equations describing the time evolution of the probability of a system to occupy each one of a discrete set of state :...
  • Atomic spectral line
    Atomic spectral line

    In physics, atomic spectral lines are of two types:* An emission line is formed when an electron makes a transition from a particular discrete energy level of an atom, to a lower energy state, emitting a photon of a particular energy and wavelength....
     (deduction of the Einstein coefficients)
  • Random walks on graphs
    Random walk

    A random walk, sometimes denoted RW, is a mathematical formalization of a trajectory that consists of taking successive random steps. The results of random walk analysis have been applied to computer science, physics, ecology, economics and a number of other fields as a fundamental Statistical model for random processes in time....
  • DMP
    Dynamics of Markovian Particles

    Dynamics of Markovian particles is the basis of a theory for kinetics of Elementary particle in open heterogeneous systems. It can be looked upon as an application of the notion of stochastic process conceived as a physical entity; e.g....