Your search keyword '"Supalert Sukrakarn"' showing total 2 results

1. Mean field theory for strongly coupled systems: Holographic approach

Author

Supalert Sukrakarn, Taewon Yuk, and Sang-Jin Sin

Subjects

Holography and Condensed Matter Physics (AdS/CMT), AdS-CFT Correspondence, Gauge-Gravity Correspondence, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798

Abstract

Abstract In this paper, we develop the holographic mean field theory for strongly interacting fermion systems. We investigate various types of the symmetry-breakings and their effect on the spectral function. We found analytic expressions of fermion Green’s functions in the probe-limit for all types of tensor order parameter fields. We classified the spectral shapes and singularity types from the analytic Green’s function. We calculated the fermions spectral function in the full backreacted background and then compared it with the analytic results to show the reliability of analytic results in the probe limit. The fact that all the main features of the spectral features in the current condensed matter physics including gaps of s-,p- waves, nodal rings and nodal shells, the flat band of dimension 1,2,3, can be obtained in the absence of the lattice as consequences of the order and symmetry breaking pattern, is a pleaseant surprise.

Published

2024

2. Photon signal from non-interacting scalar dark matter annihilation

Author

Supalert Sukrakarn and Udom Robkob

Subjects

Physics, History, Particle physics, Photon, Annihilation, Scalar (mathematics), Dark matter, Signal, Computer Science Applications, Education

Abstract

One proposal to search for Dark Matter is to look for photon signals which originates from DM annihilation. This is usually referred to as indirect detection experiment. In the case of Non-Interacting Scalar Dark Matter, there are no electromagnetic, strong, and weak interactions. Thus, the DM only interacts gravitationally. In our model, we determine the NISDM annihilation into a virtual graviton which subsequently creates a pair of Higgs bosons. The Higgs boson then suddenly decays into two photons. The line of sight integral is considered as a signifcant efect of the DM halos density profle. The total cross-section, thermally averaged cross-section and photon signal are fnally calculated and illustrated.

Published

2019