The detection efficiency of Type Ia supernovae from the Zwicky Transient Facility: limits on the intrinsic rate of early flux excesses
The detection efficiency of Type Ia supernovae from the Zwicky Transient Facility: limits on the intrinsic rate of early flux excesses
Samples of young Type Ia supernovae have shown ‘early excess’ emission in a few cases. Similar excesses are predicted by some explosion and progenitor scenarios and hence can provide important clues regarding the origin of thermonuclear supernovae. They are, however, only predicted to last up to the first few days following explosion. It is therefore unclear whether such scenarios are intrinsically rare or whether the relatively small sample size simply reflects the difficulty in obtaining sufficiently early detections. To that end, we perform toy simulations covering a range of survey depths and cadences, and investigate the efficiency with which young Type Ia supernovae are recovered. As input for our simulations, we use models that broadly cover the range of predicted luminosities. Based on our simulations, we find that in a typical 3 d cadence survey, only ∼10 per cent of Type Ia supernovae would be detected early enough to rule out the presence of an excess. A 2 d cadence, however, should see this increase to ∼15 per cent. We find comparable results from more detailed simulations of the Zwicky Transient Facility surveys. Using the recovery efficiencies from these detailed simulations, we investigate the number of young Type Ia supernovae expected to be discovered assuming some fraction of the population comes from scenarios producing an excess at early times. Comparing the results of our simulations to observations, we find that the intrinsic fraction of Type Ia supernovae with early flux excesses is ∼28+13−11 per cent.
3035 - 3049
Frohmaier, Christopher
e752dabb-bbdc-430d-ac86-861ea58d0e1b
Magee, M.R.
ed9dd018-7341-49f9-922f-91a1a8690275
Cuddy, C.
60d8fe38-6620-4d9c-80b4-0f82d9ddd2d4
Maguire, K.
513f5165-9949-4bd1-806c-0a4a2502fc32
Deckers, M.
7b6db742-3454-4e76-b6d1-c77b056daf98
Dhawan, S.
8d4c83eb-2488-4cfe-96b3-f8314d64f6d8
Miller, A. A.
2c55950f-cc6f-467b-b5ed-ed0b72117630
Nordin, J.
f887a7d5-d13f-4988-8b3a-605f61984541
Coughlin, M. W.
5bef7734-3d66-472c-a0a7-f812a0e3e205
Feinstein, F.
59ca92ec-a563-435a-bb3d-856263920aa8
Riddle, R.
d7bef09c-ef24-4e36-8aaf-1f1fe7635d98
14 April 2022
Frohmaier, Christopher
e752dabb-bbdc-430d-ac86-861ea58d0e1b
Magee, M.R.
ed9dd018-7341-49f9-922f-91a1a8690275
Cuddy, C.
60d8fe38-6620-4d9c-80b4-0f82d9ddd2d4
Maguire, K.
513f5165-9949-4bd1-806c-0a4a2502fc32
Deckers, M.
7b6db742-3454-4e76-b6d1-c77b056daf98
Dhawan, S.
8d4c83eb-2488-4cfe-96b3-f8314d64f6d8
Miller, A. A.
2c55950f-cc6f-467b-b5ed-ed0b72117630
Nordin, J.
f887a7d5-d13f-4988-8b3a-605f61984541
Coughlin, M. W.
5bef7734-3d66-472c-a0a7-f812a0e3e205
Feinstein, F.
59ca92ec-a563-435a-bb3d-856263920aa8
Riddle, R.
d7bef09c-ef24-4e36-8aaf-1f1fe7635d98
Frohmaier, Christopher, Magee, M.R., Cuddy, C., Maguire, K., Deckers, M., Dhawan, S., Miller, A. A., Nordin, J., Coughlin, M. W., Feinstein, F. and Riddle, R.
(2022)
The detection efficiency of Type Ia supernovae from the Zwicky Transient Facility: limits on the intrinsic rate of early flux excesses.
Monthly Notices of the Royal Astronomical Society, 513 (2), .
Abstract
Samples of young Type Ia supernovae have shown ‘early excess’ emission in a few cases. Similar excesses are predicted by some explosion and progenitor scenarios and hence can provide important clues regarding the origin of thermonuclear supernovae. They are, however, only predicted to last up to the first few days following explosion. It is therefore unclear whether such scenarios are intrinsically rare or whether the relatively small sample size simply reflects the difficulty in obtaining sufficiently early detections. To that end, we perform toy simulations covering a range of survey depths and cadences, and investigate the efficiency with which young Type Ia supernovae are recovered. As input for our simulations, we use models that broadly cover the range of predicted luminosities. Based on our simulations, we find that in a typical 3 d cadence survey, only ∼10 per cent of Type Ia supernovae would be detected early enough to rule out the presence of an excess. A 2 d cadence, however, should see this increase to ∼15 per cent. We find comparable results from more detailed simulations of the Zwicky Transient Facility surveys. Using the recovery efficiencies from these detailed simulations, we investigate the number of young Type Ia supernovae expected to be discovered assuming some fraction of the population comes from scenarios producing an excess at early times. Comparing the results of our simulations to observations, we find that the intrinsic fraction of Type Ia supernovae with early flux excesses is ∼28+13−11 per cent.
Text
2204.09705
- Author's Original
More information
Accepted/In Press date: 9 April 2022
Published date: 14 April 2022
Additional Information:
arXiv:2204.09705
Identifiers
Local EPrints ID: 467623
URI: http://eprints.soton.ac.uk/id/eprint/467623
ISSN: 1365-2966
PURE UUID: 4bde0e5d-e349-4af7-b24b-6cf3536bcd1b
Catalogue record
Date deposited: 15 Jul 2022 19:13
Last modified: 17 Mar 2024 04:05
Export record
Contributors
Author:
M.R. Magee
Author:
C. Cuddy
Author:
K. Maguire
Author:
M. Deckers
Author:
S. Dhawan
Author:
A. A. Miller
Author:
J. Nordin
Author:
M. W. Coughlin
Author:
F. Feinstein
Author:
R. Riddle
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics
