2019
DOI: 10.3389/fphy.2019.00182
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Manifestations of Projection-Induced Memory: General Theory and the Tilted Single File

Abstract: Over the years the field of non-Markovian stochastic processes and anomalous diffusion evolved from a specialized topic to mainstream theory, which transgressed the realms of physics to chemistry, biology and ecology. Numerous phenomenological approaches emerged, which can more or less successfully reproduce or account for experimental observations in condensed matter, biological and/or single-particle systems. However, as far as their predictions are concerned these approaches are not unique, often build on c… Show more

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Cited by 27 publications
(68 citation statements)
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References 100 publications
(171 reference statements)
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“…Tilted single file.-In the context of tracer-particle dynamics, we consider N hard-core Brownian point particles with positions fx i ðtÞg (the extension to a finite diameter is straightforward [5,6]) diffusing in a box of unit length in the presence of a linear potential (e.g., the gravitational field), Uðfx i gÞ ¼ P N i¼1 gx i . The probability density of fx i ðtÞg upon a quench fromT, PTðfx i ðtÞg; tÞ, evolves according toL 1 ¼ P N i¼1 ð∂ 2 x i þ g∂ x i Þ under noncrossing conditions [7,8]. In [60] we solve the problem exactly via the coordinate Bethe ansatz [7,8], both for the Markovian complete single file and the non-Markovian probability density of a tagged particle PTðz; tÞ (i.e., q ≡ x T ¼ z).…”
Section: Local Contributions To D Mmentioning
confidence: 99%
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“…Tilted single file.-In the context of tracer-particle dynamics, we consider N hard-core Brownian point particles with positions fx i ðtÞg (the extension to a finite diameter is straightforward [5,6]) diffusing in a box of unit length in the presence of a linear potential (e.g., the gravitational field), Uðfx i gÞ ¼ P N i¼1 gx i . The probability density of fx i ðtÞg upon a quench fromT, PTðfx i ðtÞg; tÞ, evolves according toL 1 ¼ P N i¼1 ð∂ 2 x i þ g∂ x i Þ under noncrossing conditions [7,8]. In [60] we solve the problem exactly via the coordinate Bethe ansatz [7,8], both for the Markovian complete single file and the non-Markovian probability density of a tagged particle PTðz; tÞ (i.e., q ≡ x T ¼ z).…”
Section: Local Contributions To D Mmentioning
confidence: 99%
“…Relaxation processes are a paradigm for condensed matter [1,2], single-molecule experiments [3] and tracer-particle transport in complex media [4][5][6][7][8]. Relaxation close to equilibrium was described by the mechanical Onsager-Casimir [9,10] and thermal Kubo-Yokota-Nakajima [11] linear laws.…”
mentioning
confidence: 99%
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