Arecibo Planetary Radar Observations of Near-Earth Asteroids: 2017 December–2019 December

Author:

Virkki Anne K.ORCID,Marshall Sean E.ORCID,Venditti Flaviane C. F.ORCID,Zambrano-Marín Luisa F.ORCID,Hickson Dylan C.ORCID,McGilvray Anna,Taylor Patrick A.ORCID,Rivera-Valentín Edgard G.ORCID,Devogèle MaximeORCID,Franco Díaz Eframir,Bhiravarasu Sriram S.ORCID,Aponte Hernández BetzaidaORCID,Rodriguez Sánchez-Vahamonde CarolinaORCID,Nolan Michael C.ORCID,Perillat Phil,Cabrera Israel,González Elliot,Padilla Daniel,Negrón Victor,Marrero Juan,Lebrón Johbany,Bagué Adrian,Jiménez Francisco,López-Oquendo AndyORCID,Repp Daniel,McGlasson Riley A.ORCID,Presler-Marshall Brynn,Howell Ellen S.,Margot Jean-LucORCID,Prabhu Desai Sanjana

Abstract

Abstract We successfully observed 191 near-Earth asteroids using the Arecibo Observatory’s S-band planetary radar system from 2017 December through 2019 December. We present radar cross sections for 167 asteroids; circular-polarization ratios for 112 asteroids based on Doppler-echo-power spectra measurements; and radar albedos, constraints on size and spin periods, and surface-feature and shape evaluation for 37 selected asteroids using delay-Doppler radar images with a range resolution of 75 m or finer. Out of 33 asteroids with an estimated effective diameter of at least 200 m and sufficient image quality to give clues of the shape, at least 4 (∼12%) are binary asteroids, including 1 equal-mass binary asteroid, 2017 YE5, and at least 10 (∼30%) are contact-binary asteroids. For 5 out of 112 asteroids with reliable measurements in both circular polarizations, we measured circular-polarization ratios greater than 1.0, which could indicate that they are E-type asteroids, while the mean and the 1σ standard deviation were 0.37 ± 0.23. Further, we find a mean opposite-sense circular-polarization radar albedo of 0.21 ± 0.11 for 41 asteroids (0.19 ± 0.06 for 11 S-complex asteroids). We identified two asteroids, 2011 WN15 and (505657) 2014 SR339, as possible metal-rich objects based on their unusually high radar albedos, and discuss possible evidence of water ice in 2017 YE5.

Publisher

American Astronomical Society

Subject

Space and Planetary Science,Earth and Planetary Sciences (miscellaneous),Geophysics,Astronomy and Astrophysics

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