Modeling linear polarization of the Didymos-Dimorphos system before and after the DART impact

Antti Penttilä; Karri Muinonen; Mikael Granvik; Zuri Gray; Stefano Bagnulo; Ludmilla Kolokolova; Fernando Moreno

doi:10.3847/PSJ/ad1757

Modeling linear polarization of the Didymos-Dimorphos system before and after the DART impact

Antti Penttilä, Karri Muinonen, Mikael Granvik, Zuri Gray, Stefano Bagnulo, Ludmilla Kolokolova, Fernando Moreno

Research output: Contribution to journal › Article › Scientific › peer-review

Abstract

We analyze the polarization observations of the Didymos–Dimorphos system before and after the impact by the NASA Double Asteroid Redirection Test spacecraft on Dimorphos. We fit empirical polarization phase curve models and statistically confirm the discovery by Gray et al. about the degree of linear polarization of the system decreasing on the impact and remaining altered for at least 30 days post-impact. With numerical simulations of particles in the geometric optics domain, we estimate the dominant size of the particles either in the regolith of Didymos and Dimorphos or in the impact-driven ejecta cloud to be several hundred micrometers. The observed change between the pre-impact and post-impact systems indicates either a decrease in average particle size of some tens of micrometers or a decreased level of space weathering.

Original language	English
Article number	27
Journal	The Planetary Science Journal
Volume	5
Issue number	1
Number of pages	8
ISSN	2632-3338
DOIs	https://doi.org/10.3847/PSJ/ad1757
Publication status	Published - 1 Jan 2024
MoE publication type	A1 Journal article-refereed

Fields of Science

115 Astronomy, Space science
114 Physical sciences
111 Mathematics

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10.3847/PSJ/ad1757Licence: CC BY

Penttilä_2024_Planet._Sci._J._5_27Final published version, 26 MBLicence: CC BY

ESA PRODEX CI MIRMIS NIR-MIR PFM C/D development subcontract
Penttilä, A. (Principal Investigator), Vuori, M. (Participant) & Muinonen, K. (Participant)
01/04/2023 → 30/06/2026
Project: Research project
InSight: Planetary system in scattered light
Muinonen, K. (Principal Investigator) & Penttilä, A. (Participant)
01/09/2021 → 31/08/2026
Project: Research project

Cite this

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title = "Modeling linear polarization of the Didymos-Dimorphos system before and after the DART impact",

abstract = "We analyze the polarization observations of the Didymos–Dimorphos system before and after the impact by the NASA Double Asteroid Redirection Test spacecraft on Dimorphos. We fit empirical polarization phase curve models and statistically confirm the discovery by Gray et al. about the degree of linear polarization of the system decreasing on the impact and remaining altered for at least 30 days post-impact. With numerical simulations of particles in the geometric optics domain, we estimate the dominant size of the particles either in the regolith of Didymos and Dimorphos or in the impact-driven ejecta cloud to be several hundred micrometers. The observed change between the pre-impact and post-impact systems indicates either a decrease in average particle size of some tens of micrometers or a decreased level of space weathering.",

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T1 - Modeling linear polarization of the Didymos-Dimorphos system before and after the DART impact

AU - Penttilä, Antti

AU - Muinonen, Karri

AU - Granvik, Mikael

AU - Gray, Zuri

AU - Bagnulo, Stefano

AU - Kolokolova, Ludmilla

AU - Moreno, Fernando

PY - 2024/1/1

Y1 - 2024/1/1

N2 - We analyze the polarization observations of the Didymos–Dimorphos system before and after the impact by the NASA Double Asteroid Redirection Test spacecraft on Dimorphos. We fit empirical polarization phase curve models and statistically confirm the discovery by Gray et al. about the degree of linear polarization of the system decreasing on the impact and remaining altered for at least 30 days post-impact. With numerical simulations of particles in the geometric optics domain, we estimate the dominant size of the particles either in the regolith of Didymos and Dimorphos or in the impact-driven ejecta cloud to be several hundred micrometers. The observed change between the pre-impact and post-impact systems indicates either a decrease in average particle size of some tens of micrometers or a decreased level of space weathering.

AB - We analyze the polarization observations of the Didymos–Dimorphos system before and after the impact by the NASA Double Asteroid Redirection Test spacecraft on Dimorphos. We fit empirical polarization phase curve models and statistically confirm the discovery by Gray et al. about the degree of linear polarization of the system decreasing on the impact and remaining altered for at least 30 days post-impact. With numerical simulations of particles in the geometric optics domain, we estimate the dominant size of the particles either in the regolith of Didymos and Dimorphos or in the impact-driven ejecta cloud to be several hundred micrometers. The observed change between the pre-impact and post-impact systems indicates either a decrease in average particle size of some tens of micrometers or a decreased level of space weathering.

KW - 115 Astronomy, Space science

KW - 114 Physical sciences

KW - 111 Mathematics

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DO - 10.3847/PSJ/ad1757

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VL - 5

JO - The Planetary Science Journal

JF - The Planetary Science Journal

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ER -

Modeling linear polarization of the Didymos-Dimorphos system before and after the DART impact

Abstract

Fields of Science

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Projects

ESA PRODEX CI MIRMIS NIR-MIR PFM C/D development subcontract

InSight: Planetary system in scattered light

Cite this