Exact energy distribution function in time-dependent harmonic oscillator

Abstract

Following a recent work by Robnik and Romanovski (J.Phys.A: Math.Gen. 39 (2006) L35, Open Syst. & Infor. Dyn. 13 (2006) 197-222) we derive the explicit formula for the universal distribution function of the final energies in a time-dependent 1D harmonic oscillator, whose functional form does not depend on the details of the frequency ω (t), and is closely related to the conservation of the adiabatic invariant. The normalized distribution function is P(x) = π-1 (2μ2 - x2)-1/2, where x=E1- E1, E1 is the final energy, E1 is its average value, and μ2 is the variance of E1. E1 and μ2 can be calculated exactly using the WKB approach to all orders.

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