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arxiv: 1210.0253 · v2 · pith:SX6BVQFDnew · submitted 2012-09-30 · 🧮 math-ph · math.MP· quant-ph

Effective Dynamics of a Tracer Particle Interacting with an Ideal Bose Gas

classification 🧮 math-ph math.MPquant-ph
keywords particletracerdynamicsboseparticlescoupleddensityeffective
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We study a system consisting of a heavy quantum particle, called tracer particle, coupled to an ideal gas of light Bose particles, the ratio of masses of the tracer particle and a gas particle being proportional to the gas density. All particles have non-relativistic kinematics. The tracer particle is driven by an external potential and couples to the gas particles through a pair potential. We compare the quantum dynamics of this system to an effective dynamics given by a Newtonian equation of motion for the tracer particle coupled to a classical wave equation for the Bose gas. We quantify the closeness of these two dynamics as the mean-field limit is approached (gas density $\to\infty$). Our estimates allow us to interchange the thermodynamic with the mean-field limit.

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