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Fock state probability changes in open quantum systems

Feb 11, 2025

18 pages

e-Print:

2502.07673 [hep-ph]

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Abstract: (arXiv)

Open quantum systems are powerful effective descriptions of quantum systems interacting with their environments. Studying changes of Fock states probabilities can be intricate in this context since the prevailing description of open quantum dynamics is by master equations of the systems' reduced density matrices, which usually requires finding solutions for a set of complicated coupled differential equations. In this article, we show that such problems can be circumvented by employing a recently developed path integral-based method for directly computing reduced density matrices in scalar quantum field theory. For this purpose, we consider a real scalar field

\phi

as an open system interacting via a

\lambda \chi^2\phi^2

-term with an environment comprising another real scalar field

\chi

that has a finite temperature. In particular, we investigate how the probabilities for observing the vacuum or two-particle states change over time if there were initial correlations of these Fock states. Subsequently, we apply our resulting expressions to a neutrino toy model. We show that, within our model, lighter neutrino masses would lead to a stronger distortion of the observable number of particles due to the interaction with the environment after the initial production process.

Note:

18 pages, 5 figures

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Figures(5)

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