Speaker
Description
We study dark matter physics of an axion-like bosonic portal model motivated by the recent report on the diphoton resonance at 750 GeV.
Identifying the resonance as the pseudo-scalar mediator between the standard model sector and dark matter sector, we could obtain profound implications to dark matter phenomenology from collider physics.
In this work, we fist find the preferred parameter region of the proposed model using the results of the LHC run at 13 TeV.
Next, we investigate the indirect signature of dark matter taking into account the data from various cosmic-ray searches including Fermi-LAT, HESS, and CTA.
Summary
We study dark matter physics of an axion-like bosonic portal model motivated by the recent report on the diphoton resonance at 750 GeV.
Identifying the resonance as the pseudo-scalar mediator between the standard model sector and dark matter sector, we could obtain profound implications to dark matter phenomenology from collider physics.
In this work, we fist find the preferred parameter region of the proposed model using the results of the LHC run at 13 TeV.
Next, we investigate the indirect signature of dark matter taking into account the data from various cosmic-ray searches including Fermi-LAT, HESS, and CTA.
