Numerical Simulation of Large-Scale Nonlinear Open Quantum Mechanics

• URL: http://arxiv.org/abs/2306.09083v1
• Date: Thu, 15 Jun 2023 12:26:35 GMT
• Title: Numerical Simulation of Large-Scale Nonlinear Open Quantum Mechanics
• Authors: Marc Roda-Llordes, Davide Candoli, Piotr T. Grochowski, Andreu Riera-Campeny, Thomas Agrenius, Juan Jos\'e Garc\'ia-Ripoll, Carlos Gonzalez-Ballestero, Oriol Romero-Isart
• Abstract summary: We introduce a numerical method to simulate nonlinear open quantum dynamics of a particle in situations where its state undergoes significant expansion in phase space. To demonstrate the capabilities of our method, we examine the open quantum dynamics of a particle evolving in a one-dimensional weak quartic potential after initially being ground-state cooled in a tight harmonic potential.
• Score: 0.0
• License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
• Abstract: We introduce a numerical method to simulate nonlinear open quantum dynamics of a particle in situations where its state undergoes significant expansion in phase space while generating small quantum features at the phase-space Planck scale. Our approach involves simulating the Wigner function in a time-dependent frame that leverages information from the classical trajectory to efficiently represent the quantum state in phase space. To demonstrate the capabilities of our method, we examine the open quantum dynamics of a particle evolving in a one-dimensional weak quartic potential after initially being ground-state cooled in a tight harmonic potential. This numerical approach is particularly relevant to ongoing efforts to design, optimize, and understand experiments targeting the preparation of macroscopic quantum superposition states of massive particles through nonlinear quantum dynamics.

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