Transition Path Time Distribution, Tunneling Times, Friction, and Uncertainty

Eli Pollak
Phys. Rev. Lett. 118, 070401 – Published 15 February 2017

Abstract

A quantum mechanical transition path time probability distribution is formulated and its properties are studied using a parabolic barrier potential model. The average transit time is well defined and readily calculated. It is smaller than the analogous classical mechanical average transit time, vanishing at the crossover temperature. It provides a direct route for determining tunneling times. The average time may be also used to define a coarse grained momentum of the system for the passage from one side of the barrier to the other. The product of the uncertainty in this coarse grained momentum with the uncertainty in the location of the particle is shown under certain conditions to be smaller than the /2 formal uncertainty limit. The model is generalized to include friction in the form of a bilinear interaction with a harmonic bath. Using an Ohmic friction model one finds that increasing the friction, increases the transition time. Only moderate values of the reduced friction coefficient are needed for the quantum transition time and coarse grained uncertainty to approach the classical limit which is smaller than /2 when the friction is not too small. These results show how one obtains classical dynamics from a pure quantum system without invoking any further assumptions, approximations, or postulates.

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  • Received 10 October 2016

DOI:https://doi.org/10.1103/PhysRevLett.118.070401

© 2017 American Physical Society

Physics Subject Headings (PhySH)

General PhysicsStatistical Physics & Thermodynamics

Authors & Affiliations

Eli Pollak*

  • Chemical Physics Department, Weizmann Institute of Science, 76100 Rehovoth, Israel

  • *eli.pollak@weizmann.ac.il

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Vol. 118, Iss. 7 — 17 February 2017

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