2023
01/31
OPEN
Date
2023/01/31(Tue)11:00〜12:00
Venue
Hybrid (On-site: Kenkyu-Honkan Seminar room, Online: Zoom)
Speaker
Dr. Kanji Mori ( Fukuoka U )
Language
English
URL
Contact
Yuko Urakawa / yukour-AT-post.kek.jp
Overview
Axion-like particles (ALPs) are a class of hypothetical pseudoscalar particles which feebly interact with ordinary matter. The hot plasma in core-collapse supernovae is a possible laboratory to explore physics beyond the standard model including ALPs. Once produced in a supernova, a part of the ALPs can be absorbed by the supernova matter and affect energy transfer. We recently calculated the ALP emission in core-collapse supernovae and the backreaction on supernova dynamics consistently. It is found that the stalled bounce shock can be revived even in one-dimensional models if the coupling between ALPs and photons is as high as g_{a gamma} ~ 10^{-9} GeV^{-1} and the ALP mass is 40-400 MeV. In addition, we found that the explosion energy of supernovae can be increased by the ALP heating. This implies that ALPs can be a key to reproduce 10^51 erg explosion.