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The Electromagnetic Counterpart of the Binary Neutron Star Merger LIGO/Virgo GW170817. II. UV, Optical, and Near-infrared Light Curves and Comparison to Kilonova Models
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Author
Cowperthwaite, P. S.Berger, E.
Villar, V. A.
Metzger, B. D.
Nicholl, M.
Chornock, R.
Blanchard, P. K.
Fong, W.
Margutti, R.
Soares-Santos, M.
Alexander, K. D.
Allam, S.
Annis, J.
Brout, D.
Brown, D. A.
Butler, R. E.
Chen, H.-Y.
Diehl, H. T.
Doctor, Z.
Drout, M. R.
Eftekhari, T.
Farr, B.
Finley, D. A.
Foley, R. J.
Frieman, J. A.
Fryer, C. L.
García-Bellido, J.
Gill, M. S. S.
Guillochon, J.
Herner, K.
Holz, D. E.
Kasen, D.
Kessler, R.
Marriner, J.
Matheson, T.
Neilsen, E. H.
Quataert, E.
Palmese, A.
Rest, A.
Sako, M.
Scolnic, D. M.
Smith, N.
Tucker, D. L.
Williams, P. K. G.
Balbinot, E.
Carlin, J. L.
Cook, E. R.
Durret, F.
Li, T. S.
Lopes, P. A. A.
Lourenço, A. C. C.
Marshall, J. L.
Medina, G. E.
Muir, J.
Muñoz, R. R.
Sauseda, M.
Schlegel, D. J.
Secco, L. F.
Vivas, A. K.
Wester, W.
Zenteno, A.
Zhang, Y.
Abbott, T. M. C.
Banerji, M.
Bechtol, K.
Benoit-Lévy, A.
Bertin, E.
Buckley-Geer, E.
Burke, D. L.
Capozzi, D.
Carnero Rosell, A.
Carrasco Kind, M.
Castander, F. J.
Crocce, M.
Cunha, C. E.
D’Andrea, C. B.
Costa, L. N. da
Davis, C.
DePoy, D. L.
Desai, S.
Dietrich, J. P.
Drlica-Wagner, A.
Eifler, T. F.
Evrard, A. E.
Fernandez, E.
Flaugher, B.
Fosalba, P.
Gaztanaga, E.
Gerdes, D. W.
Giannantonio, T.
Goldstein, D. A.
Gruen, D.
Gruendl, R. A.
Gutierrez, G.
Honscheid, K.
Jain, B.
James, D. J.
Jeltema, T.
Johnson, M. W. G.
Johnson, M. D.
Kent, S.
Krause, E.
Kron, R.
Kuehn, K.
Nuropatkin, N.
Lahav, O.
Lima, M.
Lin, H.
Maia, M. A. G.
March, M.
Martini, P.
McMahon, R. G.
Menanteau, F.
Miller, C. J.
Miquel, R.
Mohr, J. J.
Neilsen, E.
Nichol, R. C.
Ogando, R. L. C.
Plazas, A. A.
Roe, N.
Romer, A. K.
Roodman, A.
Rykoff, E. S.
Sanchez, E.
Scarpine, V.
Schindler, R.
Schubnell, M.
Sevilla-Noarbe, I.
Smith, M.
Smith, R. C.
Sobreira, F.
Suchyta, E.
Swanson, M. E. C.
Tarle, G.
Thomas, D.
Thomas, R. C.
Troxel, M. A.
Vikram, V.
Walker, A. R.
Wechsler, R. H.
Weller, J.
Yanny, B.
Zuntz, J.
Affiliation
Univ Arizona, Steward ObservIssue Date
2017-10-16
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IOP PUBLISHING LTDCitation
The Electromagnetic Counterpart of the Binary Neutron Star Merger LIGO/Virgo GW170817. II. UV, Optical, and Near-infrared Light Curves and Comparison to Kilonova Models 2017, 848 (2):L17 The Astrophysical JournalRights
© 2017. The American Astronomical Society. All rights reserved.Collection Information
This item from the UA Faculty Publications collection is made available by the University of Arizona with support from the University of Arizona Libraries. If you have questions, please contact us at repository@u.library.arizona.edu.Abstract
We present UV, optical, and near-infrared (NIR) photometry of the first electromagnetic counterpart to a gravitational wave source from Advanced Laser Interferometer Gravitational-wave Observatory (LIGO)/Virgo, the binary neutron star merger GW170817. Our data set extends from the discovery of the optical counterpart at 0.47-18.5 days post-merger, and includes observations with the Dark Energy Camera (DECam), Gemini-South/ FLAMINGOS-2 (GS/F2), and the Hubble Space Telescope (HST). The spectral energy distribution (SED) inferred from this photometry at 0.6 days is well described by a blackbody model with T approximate to 8300 K, a radius of R approximate to 4.5 x 10(14) cm (corresponding to an expansion velocity of v approximate to 0.3c), and a bolometric luminosity of L-bol approximate to 5 x 10(41) erg s(-1). At 1.5 days we find a multi-component SED across the optical and NIR, and subsequently we observe rapid fading in the UV and blue optical bands and significant reddening of the optical/ NIR colors. Modeling the entire data set, we find that models with heating from radioactive decay of Ni-56, or those with only a single component of opacity from r-process elements, fail to capture the rapid optical decline and red optical/NIR colors. Instead, models with two components consistent with lanthanide-poor and lanthanide-rich ejecta provide a good fit to the data; the resulting "blue" component has M-ej(blue) approximate to 0.01 M-circle dot and v(ej)(blue) approximate to 0.3c, and the "red" component has M-cj(red) approximate to 0.04 M-circle dot and v(cj)(red) approximate to 0.1 c. These ejecta masses are broadly consistent with the estimated r-process production rate required to explain the Milky Way r-process abundances, providing the first evidence that binary neutron star (BNS) mergers can be a dominant site of r-process enrichment.ISSN
2041-8213Version
Final published versionSponsors
NSF [AST-1411763, AST-1714498, DGE 1144152, PHY-1707954, AST-1518052]; NASA [NNX15AE50G, NNX16AC22G]; National Science Foundation; Kavli Foundation; Danish National Research Foundation; Niels Bohr International Academy; DARK Cosmology Centre; Gordon & Betty Moore Foundation; Heising-Simons Foundation; UCSC; Alfred P. Sloan Foundation; David and Lucile Packard Foundation; European Research Council [ERC-StG-335936]; Gordon and Betty Moore Foundation [GBMF5076]; DOE (USA); NSF (USA); MISE (Spain); STFC (UK); HEFCE (UK); NCSA (UIUC); KICP (U. Chicago); CCAPP (Ohio State); MIFPA (Texas AM); MINECO (Spain); DFG (Germany); CNPQ (Brazil); FAPERJ (Brazil); FINEP (Brazil); Argonne Lab; UC Santa Cruz; University of Cambridge; CIEMAT-Madrid; University of Chicago; University College London; DES-Brazil Consortium; University of Edinburgh; ETH Zurich; Fermilab; University of Illinois; ICE (IEEC-CSIC); IFAE Barcelona; Lawrence Berkeley Lab; LMU Munchen; Excellence Cluster Universe; University of Michigan; NOAO; University of Nottingham; Ohio State University; University of Pennsylvania; University of Portsmouth; SLAC National Lab; Stanford University; University of Sussex; Texas AM University; Gemini Observatory [GS-2017B-Q-8, GS-2017B-DD-4]Additional Links
http://stacks.iop.org/2041-8205/848/i=2/a=L17?key=crossref.855984494ac6a42b7e9da44c6a1f3a12ae974a485f413a2113503eed53cd6c53
10.3847/2041-8213/aa8fc7