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Quantum Brownian motion of a scalar particle in the presence of a partially reflecting boundary

The second quantization of a real massless scalar field in the presence of a material medium described by a Drude-like susceptibility is here examined in a 1+1 dimensional model. The modified vacuum fluctuations of this field imprint divergence-free velocity dispersions on a scalar-charged particle, thus elucidating that the origin of divergences that appear in previous treatments is the assumption of idealized boundary conditions. Among the findings there is an oscillation on the dispersion curves caused by the effective mass of the field modes inside the dispersive medium. Additionally, it is found that the effects of the medium on the particle are delayed when compared to the perfect mirror limit, a phenomenon attributed to the imperfect reflection of field modes on the mirror. Although the study focus on a scalar field, the findings are valuable for understanding models based on electromagnetic interaction.

preprint2023arXivOpen access
C. C. H. RibeiroV. A. De Lorenci
hep-thquant-ph
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C. C. H. RibeiroV. A. De Lorenci

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