Surface thermophysical properties on the potentially hazardous asteroid （99942） Apophis

We investigate the surface thermophysical properties（thermal emissivity, thermal inertia,roughness fraction and geometric albedo） of asteroid（99942） Apophis, using the currently available mid-infrared observations from CanariC am on Gran Telescopio CANARIAS and far-infrared data from PACS on Hersche...

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Veröffentlicht in:	天文和天体物理学研究：英文版 2017, Vol.17 (7), p.67-76
1. Verfasser:	Liang-Liang Yu Jianghui Ji Wing-Huen Ip
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Sprache:	eng
Schlagworte:	小行星潜在危险热发射率热物理性能热物理性质红外观测菲表面
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creator	Liang-Liang Yu Jianghui Ji Wing-Huen Ip
description	We investigate the surface thermophysical properties（thermal emissivity, thermal inertia,roughness fraction and geometric albedo） of asteroid（99942） Apophis, using the currently available mid-infrared observations from CanariC am on Gran Telescopio CANARIAS and far-infrared data from PACS on Herschel, based on the Advanced Thermophysical Model. We show that the thermal emissivity of Apophis should be wavelength dependent from 8.70 μm to 160 μm, and the maximum emissivity may appear around 20 μm, similar to that of Vesta. Moreover, we further derive the thermal inertia,roughness fraction, geometric albedo and effective diameter of Apophis within a possible 1σ scale of Γ = 100（-52）~（＋100）＋Jm~（-2）s^-0.5K^-1, fr = 0.78~1.0, pv = 0.286（-0.026）~（＋0.030） and D（eff） = 378（-25）~（＋19）m, and 3σscale of Γ = 100（-100）~（＋240）Jm~（-2）s^-0.5 K^-1, fr = 0.2~1.0, pv = 0.286（-0.029）~（＋0.039） and D（eff） = 378（-29）~（＋27） m. The derived low thermal inertia but high roughness fraction may imply that Apophis could have regolith on its surface, where stronger space weathering but weaker regolith migration has happened in comparison with asteroid Itokawa. Our results show that small-size asteroids could also have fine regolith on the surface, and further infer that Apophis may have been delivered from the Main Belt by the Yarkovsky effect.
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We show that the thermal emissivity of Apophis should be wavelength dependent from 8.70 μm to 160 μm, and the maximum emissivity may appear around 20 μm, similar to that of Vesta. Moreover, we further derive the thermal inertia,roughness fraction, geometric albedo and effective diameter of Apophis within a possible 1σ scale of Γ = 100（-52）~（＋100）＋Jm~（-2）s^-0.5K^-1, fr = 0.78~1.0, pv = 0.286（-0.026）~（＋0.030） and D（eff） = 378（-25）~（＋19）m, and 3σscale of Γ = 100（-100）~（＋240）Jm~（-2）s^-0.5 K^-1, fr = 0.2~1.0, pv = 0.286（-0.029）~（＋0.039） and D（eff） = 378（-29）~（＋27） m. The derived low thermal inertia but high roughness fraction may imply that Apophis could have regolith on its surface, where stronger space weathering but weaker regolith migration has happened in comparison with asteroid Itokawa. 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We show that the thermal emissivity of Apophis should be wavelength dependent from 8.70 μm to 160 μm, and the maximum emissivity may appear around 20 μm, similar to that of Vesta. Moreover, we further derive the thermal inertia,roughness fraction, geometric albedo and effective diameter of Apophis within a possible 1σ scale of Γ = 100（-52）~（＋100）＋Jm~（-2）s^-0.5K^-1, fr = 0.78~1.0, pv = 0.286（-0.026）~（＋0.030） and D（eff） = 378（-25）~（＋19）m, and 3σscale of Γ = 100（-100）~（＋240）Jm~（-2）s^-0.5 K^-1, fr = 0.2~1.0, pv = 0.286（-0.029）~（＋0.039） and D（eff） = 378（-29）~（＋27） m. The derived low thermal inertia but high roughness fraction may imply that Apophis could have regolith on its surface, where stronger space weathering but weaker regolith migration has happened in comparison with asteroid Itokawa. 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We show that the thermal emissivity of Apophis should be wavelength dependent from 8.70 μm to 160 μm, and the maximum emissivity may appear around 20 μm, similar to that of Vesta. Moreover, we further derive the thermal inertia,roughness fraction, geometric albedo and effective diameter of Apophis within a possible 1σ scale of Γ = 100（-52）~（＋100）＋Jm~（-2）s^-0.5K^-1, fr = 0.78~1.0, pv = 0.286（-0.026）~（＋0.030） and D（eff） = 378（-25）~（＋19）m, and 3σscale of Γ = 100（-100）~（＋240）Jm~（-2）s^-0.5 K^-1, fr = 0.2~1.0, pv = 0.286（-0.029）~（＋0.039） and D（eff） = 378（-29）~（＋27） m. The derived low thermal inertia but high roughness fraction may imply that Apophis could have regolith on its surface, where stronger space weathering but weaker regolith migration has happened in comparison with asteroid Itokawa. Our results show that small-size asteroids could also have fine regolith on the surface, and further infer that Apophis may have been delivered from the Main Belt by the Yarkovsky effect.</abstract></addata></record>
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subjects	小行星潜在危险热发射率热物理性能热物理性质红外观测菲表面
title	Surface thermophysical properties on the potentially hazardous asteroid （99942） Apophis
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