Sammanfattning
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.
Originalspråk | engelska |
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Artikelnummer | 71 |
Antal sidor | 57 |
Tidskrift | European Physical Journal A |
Volym | 57 |
Nummer | 2 |
DOI | |
Status | Published - 2021 feb. |
Ämnesklassifikation (UKÄ)
- Subatomär fysik
Fria nyckelord
- ändlig
- temperatur
- effect
- sönderfall
- sönderfallshastighet
- reell
- imaginär
- tid
- formalism
- reelltid
- imaginärtid
- tvåkropp
- neutral
- pseudoskalär
- skalär
- laddning
- spin-1/2
- fermioner
- termisk
- kvantum
- kvantfältteori
- fält
- teori
- jämvikt