Quantum signatures and semiclassical limitations in the transmission of Fock states

TL;DR

This paper investigates the transmission of Fock states through potential barriers, highlighting the limitations of semiclassical methods in capturing quantum interference effects related to Wigner-function negativity.

Contribution

It demonstrates how semiclassical approaches fail to reproduce quantum interference phenomena in Fock state transmission, emphasizing fundamental quantum-classical distinctions.

Findings

Semiclassical methods approximate overall transmission but miss short-time interference effects.

Wigner-function negativity is crucial for capturing quantum interference in transmission.

Reflections from nonlinear boundaries induce interference effects inaccessible to semiclassical approaches.

Abstract

Transmission through potential barriers is a fundamental problem in quantum mechanics. While semiclassical methods can approximate certain aspects of transmission, they fail to capture the intrinsically quantum interference associated with Wigner-function negativity. We numerically study the transmission of displaced Fock states through an inverted-oscillator barrier, with and without a Kerr nonlinearity that offers a potential route to experimental realization. These states allow only an approximate classical description, since their characteristic Wigner-function negativity is absent in phase space. The semiclassical simulation reproduces the overall transmission but deviate from exact results and fail to capture short-time plateaus that arise when regions of Wigner-function negativity cross the barrier. With the Kerr nonlinearity, reflections from nonlinear boundaries drive interference into classically forbidden regions, an effect that is inaccessible to semiclassical approaches. We find that these interference effects do not alter the maximum transmission probability, which is bounded by the initial positive-energy fraction and therefore already encoded in the phase-space structure of the Fock states. Because Fock states cannot be faithfully represented within classical phase space, the transmission through a barrier reveals fundamental limitations of semiclassical approaches.