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Moskovitz, Nicholas; Thomas, Cristina; Pravec, Petr; Lister, Tim; Polakis, Tom; Osip, David; Kareta, Theodore; Rożek, Agata; Chesley, Steven R; Naidu, Shantanu P; Scheirich, Peter; Ryan, William; Ryan, Eileen; Skiff, Brian; Snodgrass, Colin; Knight, Matthew M; Rivkin, Andrew S; Chabot, Nancy L; Ayvazian, Vova; Belskaya, Irina; Benkhaldoun, Zouhair; Berteşteanu, Daniel N; Bonavita, Mariangela; Bressi, Terrence H; Brucker, Melissa J; Burgdorf, Martin J; Burkhonov, Otabek; Burt, Brian; Contreras, Carlos; Chatelain, Joseph; Young-Jun, Choi; Daily, Matthew; de León, Julia; Ergashev, Kamoliddin; Farnham, Tony; Fatka, Petr; Marin Ferrais; Geier, Stefan; Gomez, Edward; Greenstreet, Sarah; Gröller, Hannes; Hergenrother, Carl; Holt, Carrie; Hornoch, Kamil; Husárik, Marek; Inasaridze, Raguli; Jehin, Emmanuel; Khalouei, Elahe; Jean-Baptiste, Kikwaya Eluo; Myung-Jin, Kim; Krugly, Yurij; Kučáková, Hana; Kušnirák, Peter; Larsen, Jeffrey A; Lee, Hee-Jae; Lejoly, Cassandra; Licandro, Javier; Longa-Peña, Penélope; Mastaler, Ronald A; McCully, Curtis; Hong-Kyu, Moon; Morrell, Nidia; Nath, Arushi; Oszkiewicz, Dagmara; Parrott, Daniel; Phillips, Liz; Popescu, Marcel M; Pray, Donald; Prodan, George Pantelimon; Rabus, Markus; Read, Michael T; Reva, Inna; Roark, Vernon; Santana-Ros, Toni; Scotti, James V; Tatara, Taiyo; Thirouin, Audrey; Tholen, David; Troianskyi, Volodymyr; Tubbiolo, Andrew F; Villa, Katelyn
arXiv.org, 11/2023Paper, Journal Article
On 26 September 2022, the Double Asteroid Redirection Test (DART) spacecraft impacted Dimorphos, the satellite of binary near-Earth asteroid (65803) Didymos. This demonstrated the efficacy of a kinetic impactor for planetary defense by changing the orbital period of Dimorphos by 33 minutes (Thomas et al. 2023). Measuring the period change relied heavily on a coordinated campaign of lightcurve photometry designed to detect mutual events (occultations and eclipses) as a direct probe of the satellite's orbital period. A total of 28 telescopes contributed 224 individual lightcurves during the impact apparition from July 2022 to February 2023. We focus here on decomposable lightcurves, i.e. those from which mutual events could be extracted. We describe our process of lightcurve decomposition and use that to release the full data set for future analysis. We leverage these data to place constraints on the post-impact evolution of ejecta. The measured depths of mutual events relative to models showed that the ejecta became optically thin within the first ~1 day after impact, and then faded with a decay time of about 25 days. The bulk magnitude of the system showed that ejecta no longer contributed measurable brightness enhancement after about 20 days post-impact. This bulk photometric behavior was not well represented by an HG photometric model. An HG1G2 model did fit the data well across a wide range of phase angles. Lastly, we note the presence of an ejecta tail through at least March 2023. Its persistence implied ongoing escape of ejecta from the system many months after DART impact.
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