SN 2010ay is a Luminous and Broad-lined Type Ic Supernova within a Low-metallicity Host Galaxy

We report on our serendipitous pre-discovery detection and detailed follow-up of the broad-lined Type Ic supernova (SN) 2010ay at z = 0.067 imaged by the Pan-STARRS1 3pi survey just ~4 days after explosion. The SN had a peak luminosity, M_R ~ -20.2 mag, significantly more luminous than known GRB-SNe...

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Veröffentlicht in:	arXiv.org 2012-04
Hauptverfasser:	Sanders, Nathan E, Soderberg, A M, Valenti, S, Foley, R J, Chornock, R, Chomiuk, L, Berger, E, Smartt, S, Hurley, K, Barthelmy, S D, Levesque, E M, Narayan, G, Kirshner, R P, Botticella, M T, Briggs, M S, Connaughton, V, Terada, Y, Gehrels, N, Golenetskii, S, Mazets, E, Cline, T, A von Kienlin, Boynton, W, Chambers, K C, Grav, T, Heasley, J N, Hodapp, K W, Jedicke, R, Kaiser, N, R -P Kudritzki, Luppino, G A, Lupton, R H, Magnier, E A, Monet, D G, Morgan, J S, Onaka, P M, Price, P A, Stubbs, C W, Tonry, J L, Wainscoat, R J, Waterson, M F
Format:	Artikel
Sprache:	eng
Schlagworte:	Ejecta Emission Galaxies Gamma ray bursts Gamma rays Kinetic energy Luminosity Metallicity Outflow Physics - High Energy Astrophysical Phenomena Radioactive decay Relativism Relativistic effects Supernovae
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creator	Sanders, Nathan E Soderberg, A M Valenti, S Foley, R J Chornock, R Chomiuk, L Berger, E Smartt, S Hurley, K Barthelmy, S D Levesque, E M Narayan, G Kirshner, R P Botticella, M T Briggs, M S Connaughton, V Terada, Y Gehrels, N Golenetskii, S Mazets, E Cline, T A von Kienlin Boynton, W Chambers, K C Grav, T Heasley, J N Hodapp, K W Jedicke, R Kaiser, N R -P Kudritzki Luppino, G A Lupton, R H Magnier, E A Monet, D G Morgan, J S Onaka, P M Price, P A Stubbs, C W Tonry, J L Wainscoat, R J Waterson, M F
description	We report on our serendipitous pre-discovery detection and detailed follow-up of the broad-lined Type Ic supernova (SN) 2010ay at z = 0.067 imaged by the Pan-STARRS1 3pi survey just ~4 days after explosion. The SN had a peak luminosity, M_R ~ -20.2 mag, significantly more luminous than known GRB-SNe and one of the most luminous SNe Ib/c ever discovered. The absorption velocity of SN 2010ay is v_Si ~ 19,000 km/s at ~40 days after explosion, 2-5 times higher than other broad-lined SNe and similar to the GRB-SN 2010bh at comparable epochs. Moreover, the velocity declines ~2 times slower than other SNe Ic-BL and GRB-SNe. Assuming that the optical emission is powered by radioactive decay, the peak magnitude implies the synthesis of an unusually large mass of 56 Ni, M_Ni = 0.9 M_solar. Modeling of the light-curve points to a total ejecta mass, M_ej ~ 4.7 M_sol, and total kinetic energy, E_K ~ 11x10^51 ergs. The ratio of M_Ni to M_ej is ~2 times as large for SN 2010ay as typical GRB-SNe and may suggest an additional energy reservoir. The metallicity (log(O/H)_PP04 + 12 = 8.19) of the explosion site within the host galaxy places SN 2010ay in the low-metallicity regime populated by GRB-SNe, and ~0.5(0.2) dex lower than that typically measured for the host environments of normal (broad-lined) Ic supernovae. We constrain any gamma-ray emission with E_gamma < 6x10^{48} erg (25-150 keV) and our deep radio follow-up observations with the Expanded Very Large Array rule out relativistic ejecta with energy, E > 10^48 erg. We therefore rule out the association of a relativistic outflow like those which accompanied SN 1998bw and traditional long-duration GRBs, but place less-stringent constraints on a weak afterglow like that seen from XRF 060218. These observations challenge the importance of progenitor metallicity for the production of a GRB, and suggest that other parameters also play a key role.
doi_str_mv	10.48550/arxiv.1110.2363
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The SN had a peak luminosity, M_R ~ -20.2 mag, significantly more luminous than known GRB-SNe and one of the most luminous SNe Ib/c ever discovered. The absorption velocity of SN 2010ay is v_Si ~ 19,000 km/s at ~40 days after explosion, 2-5 times higher than other broad-lined SNe and similar to the GRB-SN 2010bh at comparable epochs. Moreover, the velocity declines ~2 times slower than other SNe Ic-BL and GRB-SNe. Assuming that the optical emission is powered by radioactive decay, the peak magnitude implies the synthesis of an unusually large mass of 56 Ni, M_Ni = 0.9 M_solar. Modeling of the light-curve points to a total ejecta mass, M_ej ~ 4.7 M_sol, and total kinetic energy, E_K ~ 11x10^51 ergs. The ratio of M_Ni to M_ej is ~2 times as large for SN 2010ay as typical GRB-SNe and may suggest an additional energy reservoir. The metallicity (log(O/H)_PP04 + 12 = 8.19) of the explosion site within the host galaxy places SN 2010ay in the low-metallicity regime populated by GRB-SNe, and ~0.5(0.2) dex lower than that typically measured for the host environments of normal (broad-lined) Ic supernovae. We constrain any gamma-ray emission with E_gamma < 6x10^{48} erg (25-150 keV) and our deep radio follow-up observations with the Expanded Very Large Array rule out relativistic ejecta with energy, E > 10^48 erg. We therefore rule out the association of a relativistic outflow like those which accompanied SN 1998bw and traditional long-duration GRBs, but place less-stringent constraints on a weak afterglow like that seen from XRF 060218. 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The SN had a peak luminosity, M_R ~ -20.2 mag, significantly more luminous than known GRB-SNe and one of the most luminous SNe Ib/c ever discovered. The absorption velocity of SN 2010ay is v_Si ~ 19,000 km/s at ~40 days after explosion, 2-5 times higher than other broad-lined SNe and similar to the GRB-SN 2010bh at comparable epochs. Moreover, the velocity declines ~2 times slower than other SNe Ic-BL and GRB-SNe. Assuming that the optical emission is powered by radioactive decay, the peak magnitude implies the synthesis of an unusually large mass of 56 Ni, M_Ni = 0.9 M_solar. Modeling of the light-curve points to a total ejecta mass, M_ej ~ 4.7 M_sol, and total kinetic energy, E_K ~ 11x10^51 ergs. The ratio of M_Ni to M_ej is ~2 times as large for SN 2010ay as typical GRB-SNe and may suggest an additional energy reservoir. The metallicity (log(O/H)_PP04 + 12 = 8.19) of the explosion site within the host galaxy places SN 2010ay in the low-metallicity regime populated by GRB-SNe, and ~0.5(0.2) dex lower than that typically measured for the host environments of normal (broad-lined) Ic supernovae. We constrain any gamma-ray emission with E_gamma < 6x10^{48} erg (25-150 keV) and our deep radio follow-up observations with the Expanded Very Large Array rule out relativistic ejecta with energy, E > 10^48 erg. We therefore rule out the association of a relativistic outflow like those which accompanied SN 1998bw and traditional long-duration GRBs, but place less-stringent constraints on a weak afterglow like that seen from XRF 060218. These observations challenge the importance of progenitor metallicity for the production of a GRB, and suggest that other parameters also play a key role.</description><subject>Ejecta</subject><subject>Emission</subject><subject>Galaxies</subject><subject>Gamma ray bursts</subject><subject>Gamma rays</subject><subject>Kinetic energy</subject><subject>Luminosity</subject><subject>Metallicity</subject><subject>Outflow</subject><subject>Physics - High Energy Astrophysical Phenomena</subject><subject>Radioactive decay</subject><subject>Relativism</subject><subject>Relativistic effects</subject><subject>Supernovae</subject><issn>2331-8422</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2012</creationdate><recordtype>article</recordtype><sourceid>BENPR</sourceid><sourceid>GOX</sourceid><recordid>eNotkM1Lw0AQxRdBsNTePcmC59T9yH7kqEXbQtBDezZMdze4Jc3GTdI2_72p9fSGx5th3g-hB0rmqRaCPEM8--Oc0tFgXPIbNGGc00SnjN2hWdvuCSFMKiYEn6CvzQdmhBIYsG8x4Lw_-Dr041hb_BoD2KTytbN4OzQOrw3e9I2LdTgCPvnu29eXnXBKDq6DqvLGdwNehbbDS6jgPNyj2xKq1s3-dYq272_bxSrJP5frxUuegKBZwrnQxFFhtS0zYaTZqczaUnGeOpO5NBXaGgVqZ5hVSisrSrClZDsJ2kjgfIoer2f_uhdN9AeIQ3FhUFwYjIGna6CJ4ad3bVfsQx_r8aWCES2FkEJl_Bf8EF4t</recordid><startdate>20120405</startdate><enddate>20120405</enddate><creator>Sanders, Nathan E</creator><creator>Soderberg, A M</creator><creator>Valenti, S</creator><creator>Foley, R J</creator><creator>Chornock, R</creator><creator>Chomiuk, L</creator><creator>Berger, E</creator><creator>Smartt, S</creator><creator>Hurley, K</creator><creator>Barthelmy, S D</creator><creator>Levesque, E M</creator><creator>Narayan, G</creator><creator>Kirshner, R P</creator><creator>Botticella, M T</creator><creator>Briggs, M S</creator><creator>Connaughton, V</creator><creator>Terada, Y</creator><creator>Gehrels, N</creator><creator>Golenetskii, S</creator><creator>Mazets, E</creator><creator>Cline, T</creator><creator>A von Kienlin</creator><creator>Boynton, W</creator><creator>Chambers, K C</creator><creator>Grav, T</creator><creator>Heasley, J N</creator><creator>Hodapp, K W</creator><creator>Jedicke, R</creator><creator>Kaiser, N</creator><creator>R -P Kudritzki</creator><creator>Luppino, G A</creator><creator>Lupton, R H</creator><creator>Magnier, E A</creator><creator>Monet, D G</creator><creator>Morgan, J S</creator><creator>Onaka, P M</creator><creator>Price, P A</creator><creator>Stubbs, C W</creator><creator>Tonry, J L</creator><creator>Wainscoat, R J</creator><creator>Waterson, M F</creator><general>Cornell University Library, arXiv.org</general><scope>8FE</scope><scope>8FG</scope><scope>ABJCF</scope><scope>ABUWG</scope><scope>AFKRA</scope><scope>AZQEC</scope><scope>BENPR</scope><scope>BGLVJ</scope><scope>CCPQU</scope><scope>DWQXO</scope><scope>HCIFZ</scope><scope>L6V</scope><scope>M7S</scope><scope>PIMPY</scope><scope>PQEST</scope><scope>PQQKQ</scope><scope>PQUKI</scope><scope>PRINS</scope><scope>PTHSS</scope><scope>GOX</scope></search><sort><creationdate>20120405</creationdate><title>SN 2010ay is a Luminous and Broad-lined Type Ic Supernova within a Low-metallicity Host Galaxy</title><author>Sanders, Nathan E ; Soderberg, A M ; Valenti, S ; Foley, R J ; Chornock, R ; Chomiuk, L ; Berger, E ; Smartt, S ; Hurley, K ; Barthelmy, S D ; Levesque, E M ; Narayan, G ; Kirshner, R P ; Botticella, M T ; Briggs, M S ; Connaughton, V ; Terada, Y ; Gehrels, N ; Golenetskii, S ; Mazets, E ; Cline, T ; A von Kienlin ; Boynton, W ; Chambers, K C ; Grav, T ; Heasley, J N ; Hodapp, K W ; Jedicke, R ; Kaiser, N ; R -P Kudritzki ; Luppino, G A ; Lupton, R H ; Magnier, E A ; Monet, D G ; Morgan, J S ; Onaka, P M ; Price, P A ; Stubbs, C W ; Tonry, J L ; Wainscoat, R J ; Waterson, M F</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-a519-33580e15d8df95c6cb79ddf7334ec9e4458dc7a7bc2d7787d5fadf62b6a8c6a33</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2012</creationdate><topic>Ejecta</topic><topic>Emission</topic><topic>Galaxies</topic><topic>Gamma ray bursts</topic><topic>Gamma rays</topic><topic>Kinetic energy</topic><topic>Luminosity</topic><topic>Metallicity</topic><topic>Outflow</topic><topic>Physics - 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The SN had a peak luminosity, M_R ~ -20.2 mag, significantly more luminous than known GRB-SNe and one of the most luminous SNe Ib/c ever discovered. The absorption velocity of SN 2010ay is v_Si ~ 19,000 km/s at ~40 days after explosion, 2-5 times higher than other broad-lined SNe and similar to the GRB-SN 2010bh at comparable epochs. Moreover, the velocity declines ~2 times slower than other SNe Ic-BL and GRB-SNe. Assuming that the optical emission is powered by radioactive decay, the peak magnitude implies the synthesis of an unusually large mass of 56 Ni, M_Ni = 0.9 M_solar. Modeling of the light-curve points to a total ejecta mass, M_ej ~ 4.7 M_sol, and total kinetic energy, E_K ~ 11x10^51 ergs. The ratio of M_Ni to M_ej is ~2 times as large for SN 2010ay as typical GRB-SNe and may suggest an additional energy reservoir. The metallicity (log(O/H)_PP04 + 12 = 8.19) of the explosion site within the host galaxy places SN 2010ay in the low-metallicity regime populated by GRB-SNe, and ~0.5(0.2) dex lower than that typically measured for the host environments of normal (broad-lined) Ic supernovae. We constrain any gamma-ray emission with E_gamma < 6x10^{48} erg (25-150 keV) and our deep radio follow-up observations with the Expanded Very Large Array rule out relativistic ejecta with energy, E > 10^48 erg. We therefore rule out the association of a relativistic outflow like those which accompanied SN 1998bw and traditional long-duration GRBs, but place less-stringent constraints on a weak afterglow like that seen from XRF 060218. These observations challenge the importance of progenitor metallicity for the production of a GRB, and suggest that other parameters also play a key role.</abstract><cop>Ithaca</cop><pub>Cornell University Library, arXiv.org</pub><doi>10.48550/arxiv.1110.2363</doi><oa>free_for_read</oa></addata></record>
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subjects	Ejecta Emission Galaxies Gamma ray bursts Gamma rays Kinetic energy Luminosity Metallicity Outflow Physics - High Energy Astrophysical Phenomena Radioactive decay Relativism Relativistic effects Supernovae
title	SN 2010ay is a Luminous and Broad-lined Type Ic Supernova within a Low-metallicity Host Galaxy
url	https://sfx.bib-bvb.de/sfx_tum?ctx_ver=Z39.88-2004&ctx_enc=info:ofi/enc:UTF-8&ctx_tim=2025-02-04T01%3A14%3A22IST&url_ver=Z39.88-2004&url_ctx_fmt=infofi/fmt:kev:mtx:ctx&rfr_id=info:sid/primo.exlibrisgroup.com:primo3-Article-proquest_arxiv&rft_val_fmt=info:ofi/fmt:kev:mtx:journal&rft.genre=article&rft.atitle=SN%202010ay%20is%20a%20Luminous%20and%20Broad-lined%20Type%20Ic%20Supernova%20within%20a%20Low-metallicity%20Host%20Galaxy&rft.jtitle=arXiv.org&rft.au=Sanders,%20Nathan%20E&rft.date=2012-04-05&rft.eissn=2331-8422&rft_id=info:doi/10.48550/arxiv.1110.2363&rft_dat=%3Cproquest_arxiv%3E2086556579%3C/proquest_arxiv%3E%3Curl%3E%3C/url%3E&disable_directlink=true&sfx.directlink=off&sfx.report_link=0&rft_id=info:oai/&rft_pqid=2086556579&rft_id=info:pmid/&rfr_iscdi=true