Thermal Field Theory in real-time formalism: concepts and applications for particle decays

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    Abstract

    This review represents a detailed and comprehensive discussion of the Thermal Field Theory (TFT) concepts and key results in Yukawa-type theories. We start with a general pedagogical introduction into the TFT in the imaginary- and real-time formulation. As phenomenologically relevant implications, we present a compendium of thermal decay rates for several typical reactions calculated within the framework of the real-time formalism and compared to the imaginary-time results found in the literature. Processes considered here are those of a neutral (pseudo)scalar decaying into two distinct (pseudo)scalars or into a fermion-antifermion pair. These processes are extended from earlier works to include chemical potentials and distinct species in the final state. In addition, a (pseudo)scalar emission off a fermion line is also discussed. These results demonstrate the importance of thermal effects in particle decay observables relevant in many phenomenological applications in systems at high temperatures and densities.

    Original languageEnglish
    Article number71
    Number of pages57
    JournalEuropean Physical Journal A
    Volume57
    Issue number2
    DOIs
    Publication statusPublished - 2021 Feb

    Subject classification (UKÄ)

    • Subatomic Physics

    Free keywords

    • finite
    • temperature
    • effect
    • decay
    • rate
    • real
    • imaginary
    • time
    • formalism
    • real-time
    • imaginary-time
    • two-body
    • neutral
    • pseudoscalar
    • scalar
    • charge
    • spin-1/2
    • fermions
    • thermal
    • quantum
    • field
    • theory
    • equilibrium

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