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Trapped Ion Quantum Computing Quantum Simulation

Exploring the nonclassical dynamics of the "classical" Schrödinger equation

arXiv
Authors: David Navia, Ángel S. Sanz

Year

2023

Paper ID

52831

Status

Preprint

Abstract Read

~2 min

Abstract Words

204

Citations

N/A

Abstract

The introduction of nonlinearities in the Schrödinger equation has been considered in the literature as an effective manner to describe the action of external environments or mean fields. Here, in particular, we explore the nonlinear effects induced by subtracting a term proportional to Bohm's quantum potential to the usual (linear) Schrödinger equation, which generates the so-called "classical" Schrödinger equation. Although a simple nonlinear transformation allows us to recover the well-known classical Hamilton-Jacobi equation, by combining a series of analytical results (in the limiting cases) and simulations (whenever the analytical treatment is unaffordable), we find an analytical explanation to why the dynamics in the nonlinear "classical" regime is still strongly nonclassical. This is even more evident by establishing a one-to-one comparison between the Bohmian trajectories associated with the corresponding wave function and the classical trajectories that one should obtain. Based on these observations, it is clear that the transition to a fully classical regime requires extra conditions in order to remove any trace of coherence, which is the truly distinctive trait of quantum mechanics. This behavior is investigated in three paradigmatic cases, namely, the dispersion of a free propagating localized particle, the harmonic oscillator, and a simplified version of Young's two-slit experiment.

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  • The introduction of nonlinearities in the Schrödinger equation has been considered in the literature as an effective manner to describe the action of external environments or...

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