Illuminating a dark lens: A type ia supernova magnified by the frontier fields galaxy cluster abell 2744

Steven A. Rodney; Brandon Patel; Daniel Scolnic; Ryan J. Foley; Alberto Molino; Gabriel Brammer; Mathilde Jauzac; Maruša Bradač; Tom Broadhurst; Dan Coe; Jose M. Diego; Or Graur; Jens Hjorth; Austin Hoag; Saurabh W. Jha; Traci L. Johnson; Patrick Kelly; Daniel Lam; Curtis McCully; Elinor Medezinski; Massimo Meneghetti; Julian Merten; Johan Richard; Adam Riess; Keren Sharon; Louis Gregory Strolger; Tommaso Treu; Xin Wang; Liliya L R Williams; Adi Zitrin

doi:10.1088/0004-637X/811/1/70

Illuminating a dark lens: A type ia supernova magnified by the frontier fields galaxy cluster abell 2744

Steven A. Rodney, Brandon Patel, Daniel Scolnic, Ryan J. Foley, Alberto Molino, Gabriel Brammer, Mathilde Jauzac, Maruša Bradač, Tom Broadhurst, Dan Coe, Jose M. Diego, Or Graur, Jens Hjorth, Austin Hoag, Saurabh W. Jha, Traci L. Johnson, Patrick Kelly, Daniel Lam, Curtis McCully, Elinor MedezinskiMassimo Meneghetti, Julian Merten, Johan Richard, Adam Riess, Keren Sharon, Louis Gregory Strolger, Tommaso Treu, Xin Wang, Liliya L R Williams, Adi Zitrin

Minnesota Institute for Astrophysics

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Abstract

SN HFF14Tom is a Type Ia SN discovered at Z = 1.3457 ± 0.0001 behind the galaxy cluster Abell 2744 (Z = 0.308). In a cosmology-independent analysis, we find that HFF14Tom is 0.77 ± 0.15 mag brighter than unlensed Type Ia SNe at similar redshift, implying a lensing magnification of μ_obs = 2.03 ± 0.29. This observed magnification provides a rare opportunity for a direct empirical test of galaxy cluster lens models. Here we test 17 lens models, 13 of which were generated before the SN magnification was known, qualifying as pure "blind tests. " The models are collectively fairly accurate: 8 of the models deliver median magnifications that are consistent with the measured μ to within 1λ. However, there is a subtle systematic bias: the significant disagreements all involve models overpredicting the magnification. We evaluate possible causes for this mild bias, and find no single physical or methodological explanation to account for it. We do find that model accuracy can be improved to some extent with stringent quality cuts on multiply imaged systems, such as requiring that a large fraction have spectroscopic redshifts. In addition to testing model accuracies as we have done here, Type Ia SN magnifications could also be used as inputs for future lens models of Abell 2744 and other clusters, providing valuable constraints in regions where traditional strong- and weak-lensing information is unavailable.

Original language	English (US)
Article number	70
Journal	Astrophysical Journal
Volume	811
Issue number	1
DOIs	https://doi.org/10.1088/0004-637X/811/1/70
State	Published - Sep 20 2015

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© 2015. The American Astronomical Society. All rights reserved.

Keywords

galaxies: clusters: general
galaxies: clusters: individual (Abell 2744)
gravitational lensing: strong
gravitational lensing: weak
supernovae: general
supernovae: individual (HFF14Tom)

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Rodney, S. A., Patel, B., Scolnic, D., Foley, R. J., Molino, A., Brammer, G., Jauzac, M., Bradač, M., Broadhurst, T., Coe, D., Diego, J. M., Graur, O., Hjorth, J., Hoag, A., W. Jha, S., Johnson, T. L., Kelly, P., Lam, D., McCully, C., ... Zitrin, A. (2015). Illuminating a dark lens: A type ia supernova magnified by the frontier fields galaxy cluster abell 2744. Astrophysical Journal, 811(1), Article 70. https://doi.org/10.1088/0004-637X/811/1/70

Rodney, SA, Patel, B, Scolnic, D, Foley, RJ, Molino, A, Brammer, G, Jauzac, M, Bradač, M, Broadhurst, T, Coe, D, Diego, JM, Graur, O, Hjorth, J, Hoag, A, W. Jha, S, Johnson, TL, Kelly, P, Lam, D, McCully, C, Medezinski, E, Meneghetti, M, Merten, J, Richard, J, Riess, A, Sharon, K, Strolger, LG, Treu, T, Wang, X, Williams, LLR & Zitrin, A 2015, 'Illuminating a dark lens: A type ia supernova magnified by the frontier fields galaxy cluster abell 2744', Astrophysical Journal, vol. 811, no. 1, 70. https://doi.org/10.1088/0004-637X/811/1/70

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abstract = "SN HFF14Tom is a Type Ia SN discovered at Z = 1.3457 ± 0.0001 behind the galaxy cluster Abell 2744 (Z = 0.308). In a cosmology-independent analysis, we find that HFF14Tom is 0.77 ± 0.15 mag brighter than unlensed Type Ia SNe at similar redshift, implying a lensing magnification of μobs = 2.03 ± 0.29. This observed magnification provides a rare opportunity for a direct empirical test of galaxy cluster lens models. Here we test 17 lens models, 13 of which were generated before the SN magnification was known, qualifying as pure {"}blind tests. {"} The models are collectively fairly accurate: 8 of the models deliver median magnifications that are consistent with the measured μ to within 1λ. However, there is a subtle systematic bias: the significant disagreements all involve models overpredicting the magnification. We evaluate possible causes for this mild bias, and find no single physical or methodological explanation to account for it. We do find that model accuracy can be improved to some extent with stringent quality cuts on multiply imaged systems, such as requiring that a large fraction have spectroscopic redshifts. In addition to testing model accuracies as we have done here, Type Ia SN magnifications could also be used as inputs for future lens models of Abell 2744 and other clusters, providing valuable constraints in regions where traditional strong- and weak-lensing information is unavailable.",

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AU - Rodney, Steven A.

AU - Patel, Brandon

AU - Scolnic, Daniel

AU - Foley, Ryan J.

AU - Molino, Alberto

AU - Brammer, Gabriel

AU - Jauzac, Mathilde

AU - Bradač, Maruša

AU - Broadhurst, Tom

AU - Coe, Dan

AU - Diego, Jose M.

AU - Graur, Or

AU - Hjorth, Jens

AU - Hoag, Austin

AU - W. Jha, Saurabh

AU - Johnson, Traci L.

AU - Kelly, Patrick

AU - Lam, Daniel

AU - McCully, Curtis

AU - Medezinski, Elinor

AU - Meneghetti, Massimo

AU - Merten, Julian

AU - Richard, Johan

AU - Riess, Adam

AU - Sharon, Keren

AU - Strolger, Louis Gregory

AU - Treu, Tommaso

AU - Wang, Xin

AU - Williams, Liliya L R

AU - Zitrin, Adi

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N2 - SN HFF14Tom is a Type Ia SN discovered at Z = 1.3457 ± 0.0001 behind the galaxy cluster Abell 2744 (Z = 0.308). In a cosmology-independent analysis, we find that HFF14Tom is 0.77 ± 0.15 mag brighter than unlensed Type Ia SNe at similar redshift, implying a lensing magnification of μobs = 2.03 ± 0.29. This observed magnification provides a rare opportunity for a direct empirical test of galaxy cluster lens models. Here we test 17 lens models, 13 of which were generated before the SN magnification was known, qualifying as pure "blind tests. " The models are collectively fairly accurate: 8 of the models deliver median magnifications that are consistent with the measured μ to within 1λ. However, there is a subtle systematic bias: the significant disagreements all involve models overpredicting the magnification. We evaluate possible causes for this mild bias, and find no single physical or methodological explanation to account for it. We do find that model accuracy can be improved to some extent with stringent quality cuts on multiply imaged systems, such as requiring that a large fraction have spectroscopic redshifts. In addition to testing model accuracies as we have done here, Type Ia SN magnifications could also be used as inputs for future lens models of Abell 2744 and other clusters, providing valuable constraints in regions where traditional strong- and weak-lensing information is unavailable.

AB - SN HFF14Tom is a Type Ia SN discovered at Z = 1.3457 ± 0.0001 behind the galaxy cluster Abell 2744 (Z = 0.308). In a cosmology-independent analysis, we find that HFF14Tom is 0.77 ± 0.15 mag brighter than unlensed Type Ia SNe at similar redshift, implying a lensing magnification of μobs = 2.03 ± 0.29. This observed magnification provides a rare opportunity for a direct empirical test of galaxy cluster lens models. Here we test 17 lens models, 13 of which were generated before the SN magnification was known, qualifying as pure "blind tests. " The models are collectively fairly accurate: 8 of the models deliver median magnifications that are consistent with the measured μ to within 1λ. However, there is a subtle systematic bias: the significant disagreements all involve models overpredicting the magnification. We evaluate possible causes for this mild bias, and find no single physical or methodological explanation to account for it. We do find that model accuracy can be improved to some extent with stringent quality cuts on multiply imaged systems, such as requiring that a large fraction have spectroscopic redshifts. In addition to testing model accuracies as we have done here, Type Ia SN magnifications could also be used as inputs for future lens models of Abell 2744 and other clusters, providing valuable constraints in regions where traditional strong- and weak-lensing information is unavailable.

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KW - supernovae: general

KW - supernovae: individual (HFF14Tom)

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Illuminating a dark lens: A type ia supernova magnified by the frontier fields galaxy cluster abell 2744

Abstract

Bibliographical note

Keywords

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