Damping Rate of a Massive Fermion in a Hot Medium

Abstract: In a hot system every excitation acquires a finite lifetime, manifesting itself in a non-zero spectral width. Ordinary damping as well as quantum memory effects arise from this nontrivial spectral function. This report presents a new method for the self-consistent calculation of the spectral width of a fermion coupled to massless bosons of scalar, vector and pseudoscalar type. In accordance with the known procedures of Quantum Electrodynamics, the self-consistent summation of the corresponding Fock diagram eli… Show more

“…However, sometimes these processes may yield important information on the system. The damping rate of a particle moving in a medium may allow the estimation of the quantum memory time and radiation properties [22]. Absorption spectroscopy has a wide range of applications, in remote sensing [23], in chemistry and atomic physics [24], in astronomy [25], and in the characterization of materials, not only at the macroscopic level but also for microscopic systems, like cells and organelles [26].…”

Quantum sensing of open systems: Estimation of damping constants and temperature

“…However, sometimes these processes may yield important information on the system. The damping rate of a particle moving in a medium may allow the estimation of the quantum memory time and radiation properties [22]. Absorption spectroscopy has a wide range of applications, in remote sensing [23], in chemistry and atomic physics [24], in astronomy [25], and in the characterization of materials, not only at the macroscopic level but also for microscopic systems, like cells and organelles [26].…”

Quantum sensing of open systems: Estimation of damping constants and temperature