H0LiCOW XII. Lens mass model of WFI2033-4723 and blind measurement of its time-delay distance and H0

Cristian E. Rusu; Kenneth C. Wong; Vivien Bonvin; Dominique Sluse; Sherry H. Suyu; Christopher D. Fassnacht; James H.H. Chan; Stefan Hilbert; Matthew W. Auger; Alessandro Sonnenfeld; Simon Birrer; Frederic Courbin; Tommaso Treu; Geoff C.F. Chen; Aleksi Halkola; Léon V.E. Koopmans; Philip J. Marshall; Anowar J. Shajib

doi:10.1093/mnras/stz3451

H0LiCOW XII. Lens mass model of WFI2033-4723 and blind measurement of its time-delay distance and H₀

Cristian E. Rusu^*, Kenneth C. Wong, Vivien Bonvin, Dominique Sluse, Sherry H. Suyu, Christopher D. Fassnacht, James H.H. Chan, Stefan Hilbert, Matthew W. Auger, Alessandro Sonnenfeld, Simon Birrer, Frederic Courbin, Tommaso Treu, Geoff C.F. Chen, Aleksi Halkola, Léon V.E. Koopmans, Philip J. Marshall, Anowar J. Shajib

^*Corresponding author for this work

Kapteyn Astronomical Institute

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Abstract

We present the lens mass model of the quadruply-imaged gravitationally lensed quasar WFI2033-4723, and perform a blind cosmographical analysis based on this system. Our analysis combines (1) time-delay measurements from 14 yr of data obtained by the COSmological MOnitoring of GRAvItational Lenses (COSMOGRAIL) collaboration, (2) high-resolution Hubble Space Telescope imaging, (3) a measurement of the velocity dispersion of the lens galaxy based on ESO-MUSE data, and (4) multi-band, wide-field imaging and spectroscopy characterizing the lens environment. We account for all known sources of systematics, including the influence of nearby perturbers and complex line-of-sight structure, as well as the parametrization of the light and mass profiles of the lensing galaxy. After unblinding, we determine the effective time-delay distance to be, an average precision of $6.6. This translates to a Hubble constant, assuming a flat ΛCDM cosmology with a uniform prior on ωm in the range [0.05, 0.5]. This work is part of the H0 Lenses in COSMOGRAIL's Wellspring (H0LiCOW) collaboration, and the full time-delay cosmography results from a total of six strongly lensed systems are presented in a companion paper (H0LiCOW XIII).

Original language	English
Pages (from-to)	1440-1468
Number of pages	29
Journal	Monthly Notices of the Royal Astronomical Society
Volume	498
Issue number	1
DOIs	https://doi.org/10.1093/mnras/stz3451
Publication status	Published - 1-Oct-2020

Keywords

cosmological parameters
distance scale
gravitational lensing: strong

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Rusu, C. E., Wong, K. C., Bonvin, V., Sluse, D., Suyu, S. H., Fassnacht, C. D., Chan, J. H. H., Hilbert, S., Auger, M. W., Sonnenfeld, A., Birrer, S., Courbin, F., Treu, T., Chen, G. C. F., Halkola, A., Koopmans, L. V. E., Marshall, P. J., & Shajib, A. J. (2020). H0LiCOW XII. Lens mass model of WFI2033-4723 and blind measurement of its time-delay distance and H₀. Monthly Notices of the Royal Astronomical Society, 498(1), 1440-1468. https://doi.org/10.1093/mnras/stz3451

@article{5d30e0bbf31444e4aaedfc137b4cafaa,

title = "H0LiCOW XII. Lens mass model of WFI2033-4723 and blind measurement of its time-delay distance and H0",

abstract = "We present the lens mass model of the quadruply-imaged gravitationally lensed quasar WFI2033-4723, and perform a blind cosmographical analysis based on this system. Our analysis combines (1) time-delay measurements from 14 yr of data obtained by the COSmological MOnitoring of GRAvItational Lenses (COSMOGRAIL) collaboration, (2) high-resolution Hubble Space Telescope imaging, (3) a measurement of the velocity dispersion of the lens galaxy based on ESO-MUSE data, and (4) multi-band, wide-field imaging and spectroscopy characterizing the lens environment. We account for all known sources of systematics, including the influence of nearby perturbers and complex line-of-sight structure, as well as the parametrization of the light and mass profiles of the lensing galaxy. After unblinding, we determine the effective time-delay distance to be, an average precision of $6.6. This translates to a Hubble constant, assuming a flat ΛCDM cosmology with a uniform prior on ωm in the range [0.05, 0.5]. This work is part of the H0 Lenses in COSMOGRAIL's Wellspring (H0LiCOW) collaboration, and the full time-delay cosmography results from a total of six strongly lensed systems are presented in a companion paper (H0LiCOW XIII). ",

keywords = "cosmological parameters, distance scale, gravitational lensing: strong",

author = "Rusu, {Cristian E.} and Wong, {Kenneth C.} and Vivien Bonvin and Dominique Sluse and Suyu, {Sherry H.} and Fassnacht, {Christopher D.} and Chan, {James H.H.} and Stefan Hilbert and Auger, {Matthew W.} and Alessandro Sonnenfeld and Simon Birrer and Frederic Courbin and Tommaso Treu and Chen, {Geoff C.F.} and Aleksi Halkola and Koopmans, {L{\'e}on V.E.} and Marshall, {Philip J.} and Shajib, {Anowar J.}",

year = "2020",

month = oct,

day = "1",

doi = "10.1093/mnras/stz3451",

language = "English",

volume = "498",

pages = "1440--1468",

journal = "Monthly Notices of the Royal Astronomical Society",

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Rusu, CE, Wong, KC, Bonvin, V, Sluse, D, Suyu, SH, Fassnacht, CD, Chan, JHH, Hilbert, S, Auger, MW, Sonnenfeld, A, Birrer, S, Courbin, F, Treu, T, Chen, GCF, Halkola, A, Koopmans, LVE, Marshall, PJ & Shajib, AJ 2020, 'H0LiCOW XII. Lens mass model of WFI2033-4723 and blind measurement of its time-delay distance and H₀', Monthly Notices of the Royal Astronomical Society, vol. 498, no. 1, pp. 1440-1468. https://doi.org/10.1093/mnras/stz3451

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T1 - H0LiCOW XII. Lens mass model of WFI2033-4723 and blind measurement of its time-delay distance and H0

AU - Rusu, Cristian E.

AU - Wong, Kenneth C.

AU - Bonvin, Vivien

AU - Sluse, Dominique

AU - Suyu, Sherry H.

AU - Fassnacht, Christopher D.

AU - Chan, James H.H.

AU - Hilbert, Stefan

AU - Auger, Matthew W.

AU - Sonnenfeld, Alessandro

AU - Birrer, Simon

AU - Courbin, Frederic

AU - Treu, Tommaso

AU - Chen, Geoff C.F.

AU - Halkola, Aleksi

AU - Koopmans, Léon V.E.

AU - Marshall, Philip J.

AU - Shajib, Anowar J.

PY - 2020/10/1

Y1 - 2020/10/1

N2 - We present the lens mass model of the quadruply-imaged gravitationally lensed quasar WFI2033-4723, and perform a blind cosmographical analysis based on this system. Our analysis combines (1) time-delay measurements from 14 yr of data obtained by the COSmological MOnitoring of GRAvItational Lenses (COSMOGRAIL) collaboration, (2) high-resolution Hubble Space Telescope imaging, (3) a measurement of the velocity dispersion of the lens galaxy based on ESO-MUSE data, and (4) multi-band, wide-field imaging and spectroscopy characterizing the lens environment. We account for all known sources of systematics, including the influence of nearby perturbers and complex line-of-sight structure, as well as the parametrization of the light and mass profiles of the lensing galaxy. After unblinding, we determine the effective time-delay distance to be, an average precision of $6.6. This translates to a Hubble constant, assuming a flat ΛCDM cosmology with a uniform prior on ωm in the range [0.05, 0.5]. This work is part of the H0 Lenses in COSMOGRAIL's Wellspring (H0LiCOW) collaboration, and the full time-delay cosmography results from a total of six strongly lensed systems are presented in a companion paper (H0LiCOW XIII).

AB - We present the lens mass model of the quadruply-imaged gravitationally lensed quasar WFI2033-4723, and perform a blind cosmographical analysis based on this system. Our analysis combines (1) time-delay measurements from 14 yr of data obtained by the COSmological MOnitoring of GRAvItational Lenses (COSMOGRAIL) collaboration, (2) high-resolution Hubble Space Telescope imaging, (3) a measurement of the velocity dispersion of the lens galaxy based on ESO-MUSE data, and (4) multi-band, wide-field imaging and spectroscopy characterizing the lens environment. We account for all known sources of systematics, including the influence of nearby perturbers and complex line-of-sight structure, as well as the parametrization of the light and mass profiles of the lensing galaxy. After unblinding, we determine the effective time-delay distance to be, an average precision of $6.6. This translates to a Hubble constant, assuming a flat ΛCDM cosmology with a uniform prior on ωm in the range [0.05, 0.5]. This work is part of the H0 Lenses in COSMOGRAIL's Wellspring (H0LiCOW) collaboration, and the full time-delay cosmography results from a total of six strongly lensed systems are presented in a companion paper (H0LiCOW XIII).

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KW - distance scale

KW - gravitational lensing: strong

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