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The first Hubble diagram and cosmological constraints using superluminous supernovae




TekijätInserra C., Sullivan M., Angus C.R., MacAulay E., Nichol R.C., Smith M., Frohmaier C., Gutiérrez C.P., Vicenzi M., Möller A., Brout D., Brown P.J., Davis T.M., D'Andrea C.B., Galbany L., Kessler R., Kim A.G., Pan Y.C., Pursiainen M., Scolnic D., Thomas B.P., Wiseman P., Abbott T.M.C., Annis J., Avila S., Bertin E., Brooks D., 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., James D.J., Krause E., Kuehn K., Kuropatkin N., Li T.S., Lidman C., Lima M., Maia M.A.G., Marshall J.L., Martini P., Menanteau F., Miquel R., Plazas Malagón A.A., Romer A.K., Roodman A., Sako M., Sanchez E., Scarpine V., Schubnell M., Serrano S., Sevilla-Noarbe I., Soares-Santos M., Sobreira F., Suchyta E., Swanson M.E.C., Tarle G., Thomas D., Tucker D.L., Vikram V., Walker A.R., Zhang Y., Asorey J., Calcino J., Carollo D., Glazebrook K., Hinton S.R., Hoormann J.K., Lewis G.F., Sharp R., Swann E., Tucker B.E.

KustantajaOxford University Press

Julkaisuvuosi2021

JournalMonthly Notices of the Royal Astronomical Society

Vuosikerta504

Numero2

Aloitussivu2535

Lopetussivu2549

eISSN1365-2966

DOIhttps://doi.org/10.1093/mnras/stab978

Verkko-osoitehttps://academic.oup.com/mnras/article/504/2/2535/6219089

Rinnakkaistallenteen osoitehttps://research.utu.fi/converis/portal/detail/Publication/66471703


Tiivistelmä

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 ΩM=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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