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The first Hubble diagram and cosmological constraints using superluminous supernovae

The first Hubble diagram and cosmological constraints using superluminous supernovae
The first Hubble diagram and cosmological constraints using superluminous supernovae
We present the first Hubble diagram of superluminous supernovae (SLSNe) out to a redshift of two, together with constraints on the matter density, ΩM, and the dark energy equation-of-state parameter, w(≡p/ρ). We build a sample of 20 cosmologically useful SLSNe I based on light curve and spectroscopy quality cuts. We confirm the robustness of the peak-decline SLSN I standardization relation with a larger data set and improved fitting techniques than previous works. We then solve the SLSN model based on the above standardization via minimization of the χ2 computed from a covariance matrix that includes statistical and systematic uncertainties. For a spatially flat Λ cold dark matter (ΛCDM) cosmological model, we find $\Omega _{\rm M}=0.38^{+0.24}_{-0.19}$, with an rms of 0.27 mag for the residuals of the distance moduli. For a w0waCDM cosmological model, the addition of SLSNe I to a 'baseline' measurement consisting of Planck temperature together with Type Ia supernovae, results in a small improvement in the constraints of w0 and wa of 4 per cent. We present simulations of future surveys with 868 and 492 SLSNe I (depending on the configuration used) and show that such a sample can deliver cosmological constraints in a flat ΛCDM model with the same precision (considering only statistical uncertainties) as current surveys that use Type Ia supernovae, while providing a factor of 2-3 improvement in the precision of the constraints on the time variation of dark energy, w0 and wa. This paper represents the proof of concept for superluminous supernova cosmology, and demonstrates they can provide an independent test of cosmology in the high-redshift (z > 1) universe.
transients: supernovae, cosmology: dark matter, cosmology: cosmological parameters
1365-2966
2535-2549
Inserra, C.
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Sullivan, M.
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Angus, C. R.
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Macaulay, E.
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Nichol, R. C.
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Frohmaier, C.
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Gutiérrez, C. P.
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Vicenzi, M.
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Möller, A.
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Brout, D.
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D'Andrea, C. B.
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Galbany, L.
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Kessler, R.
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Kim, A. G.
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Pursiainen, M.
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Scolnic, D.
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Wiseman, P.
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Annis, J.
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Avila, S.
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Bertin, E.
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Carnero Rosell, A.
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Carrasco Kind, M.
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Carretero, J.
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Castander, F. J.
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Cawthon, R.
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Desai, S.
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Diehl, H. T.
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Finley, D. A.
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Flaugher, B.
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Fosalba, P.
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Frieman, J.
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Garcia-Bellido, J.
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Gaztanaga, E.
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Gerdes, D. W.
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Giannantonio, T.
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Gruen, D.
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Gruendl, R. A.
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Gschwend, J.
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Gutierrez, G.
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Hollowood, D. L.
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Honscheid, K.
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Krause, E.
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Kuehn, K.
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Kuropatkin, N.
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Lidman, C.
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Lima, M.
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Maia, M. A. G.
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Swann, E.
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The Dark Energy Survey Collaboration
Inserra, C.
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Sullivan, M.
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Angus, C. R.
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Macaulay, E.
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Nichol, R. C.
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Frohmaier, C.
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Gutiérrez, C. P.
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Vicenzi, M.
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Möller, A.
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Brout, D.
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D'Andrea, C. B.
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Galbany, L.
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Kessler, R.
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Kim, A. G.
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Pursiainen, M.
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Scolnic, D.
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Wiseman, P.
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Annis, J.
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Avila, S.
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Bertin, E.
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Burke, D. L.
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Carnero Rosell, A.
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Carrasco Kind, M.
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Carretero, J.
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Castander, F. J.
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Cawthon, R.
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Desai, S.
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Diehl, H. T.
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Eifler, T. F.
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Finley, D. A.
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Flaugher, B.
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Fosalba, P.
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Frieman, J.
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Garcia-Bellido, J.
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Gaztanaga, E.
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Gerdes, D. W.
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Giannantonio, T.
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Gruen, D.
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Gruendl, R. A.
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Gschwend, J.
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Gutierrez, G.
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Hollowood, D. L.
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Honscheid, K.
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Krause, E.
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Kuehn, K.
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Kuropatkin, N.
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Lidman, C.
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Lima, M.
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Maia, M. A. G.
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Swann, E.
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Inserra, C., Sullivan, M., Angus, C. R., Macaulay, E., Nichol, R. C., Frohmaier, C., Gutiérrez, C. P., Vicenzi, M., Möller, A., Brout, D., D'Andrea, C. B., Galbany, L., Kessler, R., Kim, A. G., Pursiainen, M., Scolnic, D., Wiseman, P., Annis, J., Avila, S., Bertin, E., Burke, D. L., Carnero Rosell, A., Carrasco Kind, M., Carretero, J., Castander, F. J., Cawthon, R., Desai, S., Diehl, H. T., Eifler, T. F., Finley, D. A., Flaugher, B., Fosalba, P., Frieman, J., Garcia-Bellido, J., Gaztanaga, E., Gerdes, D. W., Giannantonio, T., Gruen, D., Gruendl, R. A., Gschwend, J., Gutierrez, G., Hollowood, D. L., Honscheid, K., Krause, E., Kuehn, K., Kuropatkin, N., Lidman, C., Lima, M., Maia, M. A. G. and Swann, E. , The Dark Energy Survey Collaboration (2021) The first Hubble diagram and cosmological constraints using superluminous supernovae. Monthly Notices of the Royal Astronomical Society, 504 (2), 2535-2549. (doi:10.1093/mnras/stab978).

Record type: Article

Abstract

We present the first Hubble diagram of superluminous supernovae (SLSNe) out to a redshift of two, together with constraints on the matter density, ΩM, and the dark energy equation-of-state parameter, w(≡p/ρ). We build a sample of 20 cosmologically useful SLSNe I based on light curve and spectroscopy quality cuts. We confirm the robustness of the peak-decline SLSN I standardization relation with a larger data set and improved fitting techniques than previous works. We then solve the SLSN model based on the above standardization via minimization of the χ2 computed from a covariance matrix that includes statistical and systematic uncertainties. For a spatially flat Λ cold dark matter (ΛCDM) cosmological model, we find $\Omega _{\rm M}=0.38^{+0.24}_{-0.19}$, with an rms of 0.27 mag for the residuals of the distance moduli. For a w0waCDM cosmological model, the addition of SLSNe I to a 'baseline' measurement consisting of Planck temperature together with Type Ia supernovae, results in a small improvement in the constraints of w0 and wa of 4 per cent. We present simulations of future surveys with 868 and 492 SLSNe I (depending on the configuration used) and show that such a sample can deliver cosmological constraints in a flat ΛCDM model with the same precision (considering only statistical uncertainties) as current surveys that use Type Ia supernovae, while providing a factor of 2-3 improvement in the precision of the constraints on the time variation of dark energy, w0 and wa. This paper represents the proof of concept for superluminous supernova cosmology, and demonstrates they can provide an independent test of cosmology in the high-redshift (z > 1) universe.

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Accepted/In Press date: 1 April 2021
Published date: 9 April 2021
Keywords: transients: supernovae, cosmology: dark matter, cosmology: cosmological parameters
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Identifiers

Local EPrints ID: 468148
URI: http://eprints.soton.ac.uk/id/eprint/468148
DOI: doi:10.1093/mnras/stab978
ISSN: 1365-2966
PURE UUID: 1239ea66-843e-42cc-b559-5522c1bd34e8
ORCID for C. Inserra: ORCID iD orcid.org/0000-0002-3968-4409
ORCID for M. Sullivan: ORCID iD orcid.org/0000-0001-9053-4820
ORCID for P. Wiseman: ORCID iD orcid.org/0000-0002-3073-1512

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Date deposited: 04 Aug 2022 16:31
Last modified: 17 Mar 2024 03:48

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Contributors

Author: C. Inserra ORCID iD
Author: M. Sullivan ORCID iD
Author: C. R. Angus
Author: E. Macaulay
Author: R. C. Nichol
Author: C. Frohmaier
Author: C. P. Gutiérrez
Author: M. Vicenzi
Author: A. Möller
Author: D. Brout
Author: C. B. D'Andrea
Author: L. Galbany
Author: R. Kessler
Author: A. G. Kim
Author: M. Pursiainen
Author: D. Scolnic
Author: P. Wiseman ORCID iD
Author: J. Annis
Author: S. Avila
Author: E. Bertin
Author: D. L. Burke
Author: A. Carnero Rosell
Author: M. Carrasco Kind
Author: J. Carretero
Author: F. J. Castander
Author: R. Cawthon
Author: S. Desai
Author: H. T. Diehl
Author: T. F. Eifler
Author: D. A. Finley
Author: B. Flaugher
Author: P. Fosalba
Author: J. Frieman
Author: J. Garcia-Bellido
Author: E. Gaztanaga
Author: D. W. Gerdes
Author: T. Giannantonio
Author: D. Gruen
Author: R. A. Gruendl
Author: J. Gschwend
Author: G. Gutierrez
Author: D. L. Hollowood
Author: K. Honscheid
Author: E. Krause
Author: K. Kuehn
Author: N. Kuropatkin
Author: C. Lidman
Author: M. Lima
Author: M. A. G. Maia
Author: E. Swann
Corporate Author: The Dark Energy Survey Collaboration

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