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Splitting Probabilities of Symmetric Jump Processes

J. Klinger, Raphaël Voituriez, Olivier Bénichou

2022Physical Review Letters33 citationsDOIOpen Access PDF

Abstract

We derive a universal, exact asymptotic form of the splitting probability for symmetric continuous jump processes, which quantifies the probability π_{0,[under x]_}(x_{0}) that the process crosses x before 0 starting from a given position x_{0}∈[0,x] in the regime x_{0}≪x. This analysis provides in particular a fully explicit determination of the transmission probability (x_{0}=0), in striking contrast with the trivial prediction π_{0,[under x]_}(0)=0 obtained by taking the continuous limit of the process, which reveals the importance of the microscopic properties of the dynamics. These results are illustrated with paradigmatic models of jump processes with applications to light scattering in heterogeneous media in realistic 3D slab geometries. In this context, our explicit predictions of the transmission probability, which can be directly measured experimentally, provide a quantitative characterization of the effective random process describing light scattering in the medium.

Topics & Concepts

JumpContext (archaeology)Statistical physicsScatteringPhysicsPosition (finance)Characterization (materials science)Jump processLimit (mathematics)SlabMathematical analysisMathematicsQuantum mechanicsOpticsEconomicsFinancePaleontologyGeophysicsBiologyDiffusion and Search DynamicsSpectroscopy and Quantum Chemical Studies
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