University of Leicester
1602.08098v1.pdf (1.42 MB)

Hubble Space Telescope observations of the host galaxies and environments of calcium-rich supernovae

Download (1.42 MB)
journal contribution
posted on 2016-03-01, 13:49 authored by J. D. Lyman, A. J. Levan, P. A. James, C. R. Angus, R. P. Church, M. B. Davies, Nial R. Tanvir
Calcium-rich supernovae represent a significant challenge for our understanding of the fates of stellar systems. They are less luminous than other supernova (SN) types and they evolve more rapidly to reveal nebular spectra dominated by strong calcium lines with weak or absent signatures of other intermediate- and iron-group elements, which are seen in other SNe. Strikingly, their explosion sites also mark them out as distinct from other SN types. Their galactocentric offset distribution is strongly skewed to very large offsets (around one third are offset greater than 20 kpc), meaning they do not trace the stellar light of their hosts. Many of the suggestions to explain this extreme offset distribution have invoked the necessity for unusual formation sites such as globular clusters or dwarf satellite galaxies, which are therefore difficult to detect. Building on previous work attempting to detect host systems of nearby Ca-rich SNe, we here present Hubble Space Telescope imaging of 5 members of the class - 3 exhibiting large offsets and 2 coincident with the disk of their hosts. We find no underlying sources at the explosion sites of any of our sample. Combining with previous work, the lack of a host system now appears to be a ubiquitous feature amongst Ca-rich SNe. In this case the offset distribution is most readily explained as a signature of high-velocity progenitor systems that have travelled significant distances before exploding.



Monthly Notices Of The Royal Astronomical Society, 2016 (Advance Access)

Author affiliation

/Organisation/COLLEGE OF SCIENCE AND ENGINEERING/Department of Physics and Astronomy


  • AM (Accepted Manuscript)

Published in

Monthly Notices Of The Royal Astronomical Society


Oxford University Press (OUP)





Copyright date


Available date


Publisher version


11 pages, accepted for publication in MNRAS



Usage metrics

    University of Leicester Publications