Sobol, O. O.2019-10-042019-10-042019-10-042019-09-1910.1103/PhysRevD.100.056012https://infoscience.epfl.ch/handle/20.500.14299/161809WOS:000486645100006We study the electrical conductivity of hot Abelian plasma containing scalar charge carriers in the leading logarithmic order in coupling constant alpha using the Boltzmann kinetic equation. The leading contribution to the collision integral is due to the Moller and Bhabha scattering of scalar particles with a singular cross section in the region of small momentum transfer. Regularizing this singularity by taking into account the hard thermal loop corrections to the propagators of intermediate particles, we derive the second order differential equation which determines the kinetic function. We solve this equation numerically and also use a variational approach in order to find a simple analytical formula for the conductivity. It has the standard parametric dependence on the coupling constant sigma approximate to 2.38T/(alpha log alpha(-1)) with the prefactor taking a somewhat lower value compared to the fermionic case. Finally, we consider the general case of hot Abelian plasma with an arbitrary number of scalar and fermionic particle species and derive the simple analytical formula for its conductivity.Astronomy & AstrophysicsPhysics, Particles & FieldsPhysicstransport-coefficientsgauge-theoriesquark-gluonmagnetic-fieldsexcitationsdynamicstext::journal::journal article::research article