Cs. Kiss, N. Takács, Cs. E. Kalup, R. Szakáts, L. Molnár, E. Plachy, K. Sárneczky, R. Szabó, Gy. M. Szabó, A. Bódi, A. Pál
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引用次数: 0
摘要
我们报告了迄今为止已知的三个旋转最快的木星特洛伊行星的可靠人口分配,这些行星是利用凌日系外行星卫星调查任务的光曲线数据发现的,并由兹威基瞬变设施数据证实。对于我们的两个目标,旋转周期略低于先前接受的约5小时木星特洛伊分裂极限(4.26和4.75小时);然而,发现(13383)的旋转周期P = 2.926 h,导致密度估计ρ≈1.6 g cm−3,高于普遍接受的木星特洛伊行星的密度极限≤1 g cm−3。如果与较低的密度有关,这个旋转速率需要相当大的内聚力,大约是几千帕斯卡。相对较高的反照率(pV≈0.11)和快速的自转表明(13383)可能经历了一次高能碰撞,使其旋转起来,并将明亮的物质暴露在表面。
Three fast-rotating Jovian trojans identified by TESS set new population density limits
We report on the identification of the three fastest rotating Jovian trojans with reliable population assignments known to date, discovered using light curve data from the Transiting Exoplanet Satellite Survey mission and confirmed by Zwicky Transient Facility data. For two of our targets the rotation periods are moderately below the previously accepted ∼5 h Jovian trojan breakup limit (4.26 and 4.75 h); however, the rotation period of (13383) was found to be P = 2.926 h, leading to a density estimate of ρ ≈1.6 g cm−3, higher than the generally accepted ≲1 g cm−3 density limit of Jovian trojans. If associated with lower densities, this rotation rate requires considerable cohesion, of the order of a few kilopascals. The relatively high albedo (pV ≈ 0.11) and fast rotation suggest that (13383) may have undergone an energetic collision that spun up the body and exposed bright material to the surface.
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Astronomy & Astrophysics is an international Journal that publishes papers on all aspects of astronomy and astrophysics (theoretical, observational, and instrumental) independently of the techniques used to obtain the results.
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