摘要
This study extends the investigation of quantum dissipative effects of a cosmological scalar field by taking into account cosmic expansion and contraction.Cheung,Drewes,Kang,and Kim calculated the effective action and quantum dissipative effects of a cosmological scalar field in a recent work,where analytical expressions for the effective potential and damping coefficient were presented using a simple scalar model with quartic interactions,and the work was conducted using Minkowski-space propagators in loop diagrams.In this work,we incorporate the Hubble expansion and contraction of the cosmic background and focus on the thermal dynamics of a scalar field in a regime where the effective potential changes slowly.Given that the Hubble parameter,H,attains a small but non-zero value,we carry out calculations to the first order in H.If we set H=0,all results match those in flat spacetime.Interestingly,we must integrate over the resonances,which in turn leads to an amplification of the effects of a non-zero H.This is an intriguing phenomenon,which cannot be uncovered in flat spacetime.The implications on particle creations in the early universe will be studied in a forthcoming study.
作者
Hui Xu
Lei Ming
Yeuk-Kwan ECheung
徐辉;明磊;Yeuk-Kwan ECheung(School of Physics,Nanjing University,Nanjing,210093,Chin;Institute of Nuclear and Particle Physics,Demokritos National Research Centre,Athens,Greece)
基金
Supported in parts by the NSF China(11775110,11690034)
the European Union’s Horizon 2020 research and innovation programme(RISE)under the Marie Sk′lodowska-Curie grant agreement(644121)
the Priority Academic Program Development for Jiangsu Higher Education Institutions(PAPD)。
