GROWTH on S190425z: Searching Thousands of Square Degrees to Identify an Optical or Infrared Counterpart to a Binary Neutron Star Merger with the Zwicky Transient Facility and Palomar Gattini-IR

被引：90

作者：

Coughlin, Michael W. ^{[1
]}

Ahumada, Tomas ^{[2
]}

Anand, Shreya ^{[1
]}

De, Kishalay ^{[1
]}

Hankins, Matthew J. ^{[1
]}

Kasliwal, Mansi M. ^{[1
]}

Singer, Leo P. ^{[3
,4
]}

Bellm, Eric C. ^{[5
]}

Andreoni, Igor ^{[1
]}

Cenko, S. Bradley ^{[3
,4
]}

Cooke, Jeff ^{[6
,7
]}

Copperwheat, Christopher M. ^{[8
]}

Dugas, Alison M. ^{[1
]}

Jencson, Jacob E. ^{[1
]}

Perley, Daniel A. ^{[8
]}

Yu, Po-Chieh ^{[9
]}

Bhalerao, Varun ^{[10
]}

Kumar, Harsh ^{[10
]}

Bloom, Joshua S. ^{[11
,12
]}

Anupama, G. C. ^{[13
]}

Ashley, Michael C. B. ^{[14
]}

Bagdasaryan, Ashot ^{[1
]}

Biswas, Rahul ^{[15
]}

Buckley, David A. H. ^{[16
,17
]}

Burdge, Kevin B. ^{[1
]}

Cook, David O. ^{[18
]}

Cromer, John ^{[19
]}

Cunningham, Virginia ^{[2
]}

D'Ai, Antonino ^{[20
]}

Dekany, Richard G. ^{[19
]}

Delacroix, Alexandre ^{[19
]}

Dichiara, Simone ^{[2
,3
]}

Duev, Dmitry A. ^{[1
]}

Dutta, Anirban ^{[13
]}

Feeney, Michael ^{[19
]}

Frederick, Sara ^{[2
]}

Gatkine, Pradip ^{[2
]}

Ghosh, Shaon ^{[21
]}

Goldstein, Daniel A. ^{[1
]}

Golkhou, V. Zach ^{[5
,22
]}

Goobar, Ariel ^{[15
]}

Graham, Matthew J. ^{[1
]}

Hanayama, Hidekazu ^{[23
]}

Horiuchi, Takashi ^{[23
]}

Hung, Tiara ^{[24
]}

Jha, Saurabh W. ^{[25
,26
]}

Kong, Albert K. H. ^{[27
]}

Giomi, Matteo ^{[28
]}

Kaplan, David L. ^{[21
]}

Karambelkar, V. R. ^{[10
]}

机构：

[1] CALTECH, Div Phys Math & Astron, Pasadena, CA 91125 USA

[2] Univ Maryland, Dept Astron, College Pk, MD 20742 USA

[3] NASA, Astrophys Sci Div, Goddard Space Flight Ctr, MC 661, Greenbelt, MD 20771 USA

[4] Univ Maryland, Joint Space Sci Inst, College Pk, MD 20742 USA

[5] Univ Washington, Dept Astron, DIRAC Inst, 3910 15th Ave NE, Seattle, WA 98195 USA

[6] Swinburne Univ Technol, Australian Res Council, Ctr Excellence Gravitat Wave Discovery OzGrav, Hawthorn, Vic 3122, Australia

[7] Swinburne Univ Technol, Ctr Astrophys & Supercomp, Hawthorn, Vic 3122, Australia

[8] Liverpool John Moores Univ, Astrophys Res Inst, IC2,Liverpool Sci Pk,146 Brownlow Hill, Liverpool L3 5RF, Merseyside, England

[9] Natl Cent Univ, Grad Inst Astron, Taoyuan 32001, Taiwan

[10] Indian Inst Technol, Bombay 400076, Maharashtra, India

[11] Univ Calif Berkeley, Dept Astron, 601 Campbell Hall, Berkeley, CA 94720 USA

[12] Lawrence Berkeley Natl Lab, Phys, 1 Cyclotron Rd,MS 50B-4206, Berkeley, CA 94720 USA

[13] Indian Inst Astrophys, II Block Koramangala, Bengaluru 560034, Karnataka, India

[14] Univ New South Wales, Sch Phys, Sydney, NSW 2052, Australia

[15] Stockholm Univ, Dept Phys, Oskar Klein Ctr, SE-10691 Stockholm, Sweden

[16] South African Astron Observ, POB 9, ZA-7935 Cape Town, South Africa

[17] Southern African Large Telescope Fdn, POB 9, ZA-7935 Cape Town, South Africa

[18] CALTECH, IPAC, 1200 E Calif Blvd, Pasadena, CA 91125 USA

[19] CALTECH, Caltech Opt Observ, Pasadena, CA 91125 USA

[20] INAF IASF Palermo, Via Ugo La Malfa 153, I-90146 Palermo, Italy

[21] Univ Wisconsin, Dept Phys, Ctr Gravitat Cosmol & Astrophys, POB 413, Milwaukee, WI 53201 USA

[22] Univ Washington, Esci Inst, Seattle, WA 98195 USA

[23] Natl Astron Observ Japan, Ishigakijima Astron Observ, 1024-1 Arakawa, Okinawa 9070024, Japan

[24] Univ Calif Santa Cruz, Dept Astron & Astrophys, Santa Cruz, CA 95064 USA

[25] Rutgers State Univ, Dept Phys & Astron, 136 Frelinghuysen Rd, Piscataway, NJ 08854 USA

[26] Flatiron Inst, Ctr Computat Astrophys, 162 5th Ave, New York, NY 10010 USA

[27] Natl Tsing Hua Univ, Inst Astron, Hsinchu 30013, Taiwan

[28] Humboldt Univ, Newtonstr 15, D-12489 Berlin, Germany

[29] Humboldt Univ, Inst Phys, Newtonstr 15, D-12489 Berlin, Germany

[30] Deutsch Elektronensynchrotron, Platanenallee 6, D-15738 Zeuthen, Germany

[31] Univ Calif Santa Barbara, Kavli Inst Theoret Phys, Santa Barbara, CA 93106 USA

[32] Australian Natl Univ, Res Sch Astron & Astrophys, Weston, ACT 2611, Australia

[33] Weizmann Inst Sci, Dept Particle Phys & Astrophys, IL-76100 Rehovot, Israel

[34] Univ Clermont Auvergne, Lab Phys Clermont, CNRS, IN2P3, F-63000 Clermont Ferrand, France

[35] CALTECH, Jet Prop Lab, 4800 Oak Grove Dr, Pasadena, CA 91109 USA

[36] Stockholm Univ, Oskar Klein Ctr, SE-10691 Stockholm, Sweden

[37] Stockholm Univ, Dept Astron, SE-10691 Stockholm, Sweden

[38] Northwestern Univ, Ctr Interdisciplinary Explorat & Res Astrophys, 2145 Sheridan Rd, Evanston, IL 60208 USA

[39] Northwestern Univ, Dept Phys & Astron, 2145 Sheridan Rd, Evanston, IL 60208 USA

[40] Tokyo Inst Technol, Dept Phys, Meguro Ku, 2-12-1 Ookayama, Tokyo 1528551, Japan

来源：

ASTROPHYSICAL JOURNAL LETTERS | 2019年 / 885卷 / 01期

基金：

美国国家航空航天局; 美国国家科学基金会; 欧洲研究理事会; 以色列科学基金会; 英国科学技术设施理事会;

关键词：

Gravitational wave astronomy; Transient detection; Optical telescopes; R-PROCESS NUCLEOSYNTHESIS; ELECTROMAGNETIC COUNTERPARTS; KILONOVA; EJECTA;

D O I：

10.3847/2041-8213/ab4ad8

中图分类号：

P1 [天文学];

学科分类号：

0704 ;

摘要：

The third observing run by LVC has brought the discovery of many compact binary coalescences. Following the detection of the first binary neutron star merger in this run (LIGO/Virgo S190425z), we performed a dedicated follow-up campaign with the Zwicky Transient Facility (ZTF) and Palomar Gattini-IR telescopes. The initial skymap of this single-detector gravitational wave (GW) trigger spanned most of the sky observable from Palomar Observatory. Covering 8000 deg(2) of the initial skymap over the next two nights, corresponding to 46% integrated probability, ZTF system achieved a depth of 21 m(AB) in g- and r-bands. Palomar Gattini-IR covered 2200 square degrees in J-band to a depth of 15.5 mag, including 32% integrated probability based on the initial skymap. The revised skymap issued the following day reduced these numbers to 21% for the ZTF and 19% for Palomar Gattini-IR. We narrowed 338,646 ZTF transient ?alerts? over the first two nights of observations to 15 candidate counterparts. Two candidates, ZTF19aarykkb and ZTF19aarzaod, were particularly compelling given that their location, distance, and age were consistent with the GW event, and their early optical light curves were photometrically consistent with that of kilonovae. These two candidates were spectroscopically classified as young core-collapse supernovae. The remaining candidates were ruled out as supernovae. Palomar Gattini-IR did not identify any viable candidates with multiple detections only after merger time. We demonstrate that even with single-detector GW events localized to thousands of square degrees, systematic kilonova discovery is feasible.

引用

页数：13

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