Sign up to save your podcasts
Or
Share Supernova 2023ixf
Share to email
Share to Facebook
Share to X
Share to email
Share to Facebook
Share to X
Or
Supernova 2023ixf
SN 2023ixf provided the earliest ever detection of shock breakout from a supernova. The red supergiant progenitor star had a radius of about 440 solar radii. Early observations revealed that the light curves evolved very rapidly (timescales of 1-2 hours), appearing fainter and redder than models predicted. The study authors attribute this to an optically thick dust shell surrounding the star that was destroyed as the shockwave passed through. Based on the best fit models, the study authors conclude that the shock breakout, and possibly the dust shell itself, were not spherically symmetric.
Publications:
Acknowledgements: Illustration from A. Singh et al. (arXiv:2405.20989). Podcast created with Google/NotebookLM.
View all episodes
By Astro-COLIBRISN 2023ixf provided the earliest ever detection of shock breakout from a supernova. The red supergiant progenitor star had a radius of about 440 solar radii. Early observations revealed that the light curves evolved very rapidly (timescales of 1-2 hours), appearing fainter and redder than models predicted. The study authors attribute this to an optically thick dust shell surrounding the star that was destroyed as the shockwave passed through. Based on the best fit models, the study authors conclude that the shock breakout, and possibly the dust shell itself, were not spherically symmetric.
Publications:
Acknowledgements: Illustration from A. Singh et al. (arXiv:2405.20989). Podcast created with Google/NotebookLM.