Searching for gravitational wave optical counterparts with the Zwicky Transient Facility: summary of O4a

During the first half of the fourth observing run (O4a) of the International Gravitational Wave Network (IGWN), the Zwicky Transient Facility (ZTF) conducted a systematic search for kilonova (KN) counterparts to binary neutron star (BNS) and neutron star-black hole (NSBH) merger candidates. Here, we...

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Veröffentlicht in:	arXiv.org 2024-05
Hauptverfasser:	Ahumada, Tomás, Anand, Shreya, Coughlin, Michael W, Gupta, Vaidehi, Kasliwal, Mansi M, Karambelkar, Viraj R, Stein, Robert D, Waratkar, Gaurav, Swain, Vishwajeet, Theophile Jegou du Laz, Anumarlapudi, Akash, Andreoni, Igor, Bulla, Mattia, Srinivasaragavan, Gokul P, Toivonen, Andrew, Wold, Avery, Bellm, Eric C, S Bradley Cenko, Kaplan, David L, Sollerman, Jesper, Bhalerao, Varun, Perley, Daniel, Salgundi, Anirudh, Suresh, Aswin, K-Ryan Hinds, Reusch, Simeon, Necker, Jannis, Cook, David O, Pletskova, Natalya, Singer, Leo P, Banerjee, Smaranika, Barna, Tyler, Copperwheat, Christopher M, Healy, Brian, R Weizmann Kiendrebeogo, Kumar, Harsh, Kumar, Ravi, Pezzella, Marianna, Sagues-Carracedo, Ana, Sravan, Niharika, Bloom, Joshua S, Chen, Tracy X, Graham, Matthew, Helou, George, Laher, Russ R, Mahabal, Ashish A, Purdum, Josiah, Anupama, G C, Barway, Sudhanshu, Basu, Judhajeet, Raman, Dhananjay, Roychowdhury, Tamojeet
Format:	Artikel
Sprache:	eng
Schlagworte:	Bayesian analysis Binary stars Black holes Candidates Conditional probability Gravitational waves Luminosity Neutron stars Neutrons Optical counterparts (astronomy) Scheduling Transients (astronomy)
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creator	Ahumada, Tomás Anand, Shreya Coughlin, Michael W Gupta, Vaidehi Kasliwal, Mansi M Karambelkar, Viraj R Stein, Robert D Waratkar, Gaurav Swain, Vishwajeet Theophile Jegou du Laz Anumarlapudi, Akash Andreoni, Igor Bulla, Mattia Srinivasaragavan, Gokul P Toivonen, Andrew Wold, Avery Bellm, Eric C S Bradley Cenko Kaplan, David L Sollerman, Jesper Bhalerao, Varun Perley, Daniel Salgundi, Anirudh Suresh, Aswin K-Ryan Hinds Reusch, Simeon Necker, Jannis Cook, David O Pletskova, Natalya Singer, Leo P Banerjee, Smaranika Barna, Tyler Copperwheat, Christopher M Healy, Brian R Weizmann Kiendrebeogo Kumar, Harsh Kumar, Ravi Pezzella, Marianna Sagues-Carracedo, Ana Sravan, Niharika Bloom, Joshua S Chen, Tracy X Graham, Matthew Helou, George Laher, Russ R Mahabal, Ashish A Purdum, Josiah Anupama, G C Barway, Sudhanshu Basu, Judhajeet Raman, Dhananjay Roychowdhury, Tamojeet
description	During the first half of the fourth observing run (O4a) of the International Gravitational Wave Network (IGWN), the Zwicky Transient Facility (ZTF) conducted a systematic search for kilonova (KN) counterparts to binary neutron star (BNS) and neutron star-black hole (NSBH) merger candidates. Here, we present a comprehensive study of the five high-significance (FAR < 1 per year) BNS and NSBH candidates in O4a. Our follow-up campaigns relied on both target-of-opportunity observations (ToO) and re-weighting of the nominal survey schedule to maximize coverage. We describe the toolkit we have been developing, Fritz, an instance of SkyPortal, instrumental in coordinating and managing our telescope scheduling, candidate vetting, and follow-up observations through a user-friendly interface. ZTF covered a total of 2841 deg$^2$ within the skymaps of the high-significance GW events, reaching a median depth of g~20.2 mag. We circulated 15 candidates, but found no viable KN counterpart to any of the GW events. Based on the ZTF non-detections of the high-significance events in O4a, we used a Bayesian approach, nimbus, to quantify the posterior probability of KN model parameters that are consistent with our non-detections. Our analysis favors KNe with initial absolute magnitude fainter than -16 mag. The joint posterior probability of a GW170817-like KN associated with all our O4a follow-ups was 64%. Additionally, we use a survey simulation software, simsurvey, to determine that our combined filtered efficiency to detect a GW170817-like KN is 36%, when considering the 5 confirmed astrophysical events in O3 (1 BNS and 4 NSBH), along with our O4a follow-ups. Following Kasliwal et al. (2020), we derived joint constraints on the underlying KN luminosity function based on our O3 and O4a follow-ups, determining that no more than 76% of KNe fading at 1 mag/day can peak at a magnitude brighter than -17.5 mag.
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Here, we present a comprehensive study of the five high-significance (FAR < 1 per year) BNS and NSBH candidates in O4a. Our follow-up campaigns relied on both target-of-opportunity observations (ToO) and re-weighting of the nominal survey schedule to maximize coverage. We describe the toolkit we have been developing, Fritz, an instance of SkyPortal, instrumental in coordinating and managing our telescope scheduling, candidate vetting, and follow-up observations through a user-friendly interface. ZTF covered a total of 2841 deg$^2$ within the skymaps of the high-significance GW events, reaching a median depth of g~20.2 mag. We circulated 15 candidates, but found no viable KN counterpart to any of the GW events. Based on the ZTF non-detections of the high-significance events in O4a, we used a Bayesian approach, nimbus, to quantify the posterior probability of KN model parameters that are consistent with our non-detections. Our analysis favors KNe with initial absolute magnitude fainter than -16 mag. The joint posterior probability of a GW170817-like KN associated with all our O4a follow-ups was 64%. Additionally, we use a survey simulation software, simsurvey, to determine that our combined filtered efficiency to detect a GW170817-like KN is 36%, when considering the 5 confirmed astrophysical events in O3 (1 BNS and 4 NSBH), along with our O4a follow-ups. Following Kasliwal et al. 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Database</collection><collection>Access via ProQuest (Open Access)</collection><collection>ProQuest One Academic Eastern Edition (DO NOT USE)</collection><collection>ProQuest One Academic</collection><collection>ProQuest One Academic UKI Edition</collection><collection>ProQuest Central China</collection><collection>Engineering Collection</collection></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Ahumada, Tomás</au><au>Anand, Shreya</au><au>Coughlin, Michael W</au><au>Gupta, Vaidehi</au><au>Kasliwal, Mansi M</au><au>Karambelkar, Viraj R</au><au>Stein, Robert D</au><au>Waratkar, Gaurav</au><au>Swain, Vishwajeet</au><au>Theophile Jegou du Laz</au><au>Anumarlapudi, Akash</au><au>Andreoni, Igor</au><au>Bulla, Mattia</au><au>Srinivasaragavan, Gokul P</au><au>Toivonen, Andrew</au><au>Wold, Avery</au><au>Bellm, Eric C</au><au>S Bradley Cenko</au><au>Kaplan, David L</au><au>Sollerman, Jesper</au><au>Bhalerao, Varun</au><au>Perley, Daniel</au><au>Salgundi, Anirudh</au><au>Suresh, Aswin</au><au>K-Ryan Hinds</au><au>Reusch, Simeon</au><au>Necker, Jannis</au><au>Cook, David O</au><au>Pletskova, Natalya</au><au>Singer, Leo P</au><au>Banerjee, Smaranika</au><au>Barna, Tyler</au><au>Copperwheat, Christopher M</au><au>Healy, Brian</au><au>R Weizmann Kiendrebeogo</au><au>Kumar, Harsh</au><au>Kumar, Ravi</au><au>Pezzella, Marianna</au><au>Sagues-Carracedo, Ana</au><au>Sravan, Niharika</au><au>Bloom, Joshua S</au><au>Chen, Tracy X</au><au>Graham, Matthew</au><au>Helou, George</au><au>Laher, Russ R</au><au>Mahabal, Ashish A</au><au>Purdum, Josiah</au><au>Anupama, G C</au><au>Barway, Sudhanshu</au><au>Basu, Judhajeet</au><au>Raman, Dhananjay</au><au>Roychowdhury, Tamojeet</au><format>book</format><genre>document</genre><ristype>GEN</ristype><atitle>Searching for gravitational wave optical counterparts with the Zwicky Transient Facility: summary of O4a</atitle><jtitle>arXiv.org</jtitle><date>2024-05-20</date><risdate>2024</risdate><eissn>2331-8422</eissn><abstract>During the first half of the fourth observing run (O4a) of the International Gravitational Wave Network (IGWN), the Zwicky Transient Facility (ZTF) conducted a systematic search for kilonova (KN) counterparts to binary neutron star (BNS) and neutron star-black hole (NSBH) merger candidates. Here, we present a comprehensive study of the five high-significance (FAR < 1 per year) BNS and NSBH candidates in O4a. Our follow-up campaigns relied on both target-of-opportunity observations (ToO) and re-weighting of the nominal survey schedule to maximize coverage. We describe the toolkit we have been developing, Fritz, an instance of SkyPortal, instrumental in coordinating and managing our telescope scheduling, candidate vetting, and follow-up observations through a user-friendly interface. ZTF covered a total of 2841 deg$^2$ within the skymaps of the high-significance GW events, reaching a median depth of g~20.2 mag. We circulated 15 candidates, but found no viable KN counterpart to any of the GW events. Based on the ZTF non-detections of the high-significance events in O4a, we used a Bayesian approach, nimbus, to quantify the posterior probability of KN model parameters that are consistent with our non-detections. Our analysis favors KNe with initial absolute magnitude fainter than -16 mag. The joint posterior probability of a GW170817-like KN associated with all our O4a follow-ups was 64%. Additionally, we use a survey simulation software, simsurvey, to determine that our combined filtered efficiency to detect a GW170817-like KN is 36%, when considering the 5 confirmed astrophysical events in O3 (1 BNS and 4 NSBH), along with our O4a follow-ups. Following Kasliwal et al. (2020), we derived joint constraints on the underlying KN luminosity function based on our O3 and O4a follow-ups, determining that no more than 76% of KNe fading at 1 mag/day can peak at a magnitude brighter than -17.5 mag.</abstract><cop>Ithaca</cop><pub>Cornell University Library, arXiv.org</pub><oa>free_for_read</oa></addata></record>
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identifier	EISSN: 2331-8422
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issn	2331-8422
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source	Free E- Journals
subjects	Bayesian analysis Binary stars Black holes Candidates Conditional probability Gravitational waves Luminosity Neutron stars Neutrons Optical counterparts (astronomy) Scheduling Transients (astronomy)
title	Searching for gravitational wave optical counterparts with the Zwicky Transient Facility: summary of O4a
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