%0 Journal Article
%A Popescu, Marcel M.
%A Fuente Marcos, de la
%A De La Fuente Marcos, Raúl
%T Discovery and physical characterization as the first response to a potential asteroid collision: the case of 2023 DZ2
%D 2023
%U https://hdl.handle.net/20.500.14352/87219
%X Context. Near-Earth asteroids (NEAs) that may evolve into impactors deserve detailed threat assessment studies. Early physical characterization of a would-be impactor may help in optimizing impact mitigation plans. We first detected NEA 2023 DZ2 on 27–February–2023. After that, it was found to have a Minimum Orbit Intersection Distance (MOID) with Earth of 0.00005 au as well as an unusually high initial probability of becoming a near-term (in 2026) impactor.Aims. We aim to perform a rapid but consistent dynamical and physical characterization of 2023 DZ2 as an example of a key response to mitigate the consequences of a potential impact.Methods. We use a multi-pronged approach, drawing from various methods (observational/computational) and techniques (spectroscopy/photometry from multiple instruments), and bringing the data together to perform a rapid and robust threat assessment.Results. The visible reflectance spectrum of 2023 DZ2 is consistent with that of an X-type asteroid. Light curves of this object obtained on two different nights give a rotation period P=6.2743±0.0005 min with an amplitude A=0.57±0.14 mag. We confirm that although its MOID is among the smallest known, 2023 DZ2 will not impact Earth in the foreseeable future as a result of secular near-resonant behaviour.Conclusions. Our investigation shows that coordinated observation and interpretation of disparate data provides a robust approach from discovery to threat assessment when a virtual impactor is identified. We prove that critical information can be obtained within a few days after the announcement of the potential impactor.
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