Inertial mechanism: Dynamical mass as a source of particle creation
Abstract
A kinetic theory of vacuum particle creation under the action of an inertial mechanism is constructed within a nonperturbative dynamical approach. At the semi-phenomenological level, the inertial mechanism corresponds to quantum field theory with a time-dependent mass. At the microscopic level, such a dependence may be caused for different reasons: the non-stationary Higgs mechanism, the influence of a mean field or condensate, the presence of a conformal multiplier in the scalar-tensor gravitation theory, etc. In what follows, a kinetic theory in the collisionless approximation is developed for scalar, spinor, and massive vector fields in the framework of the oscillator representation, which is an effective tool for transition to the quasiparticle description and for derivation of non-Markovian kinetic equations. Properties of these equations and relevant observables (particle number and energy densities, pressure) are studied. The developed theory is applied here to describe the vacuum matter creation in conformal cosmological models and explain the observed number density of photons in the cosmic microwave background radiation. As another example, the self-consistent evolution of scalar fields with non-monotonic self-interaction potentials (the W-potential and Witten-Di Vecchia-Veneziano model) is considered. In particular, conditions for the appearance of tachyonic modes and the problem of the relevant definition of a vacuum state are discussed.
- Publication:
-
Physics of Particles and Nuclei
- Pub Date:
- November 2008
- DOI:
- 10.1134/S1063779608060026
- arXiv:
- arXiv:0710.0233
- Bibcode:
- 2008PPN....39..886F
- Keywords:
-
- 13.87.Ce;
- 05.20.Dd;
- 11.15.Tk;
- 98.70.Vc;
- 11.10.Lm;
- High Energy Physics - Phenomenology
- E-Print:
- 51 pages, 18 figures, submitted to PEPAN (JINR, Dubna)