Monday, March 23, 2015

Different Formation Mechanisms for Hot versus Warm Super-Earths

Evidence of Different Formation Mechanisms for Hot versus Warm Super-Earths

Author:

Zhu et al

Abstract:

Using the Kepler planet sample from Buchhave et al. and the statistical method clarified by Schlaufman, I show that the shorter-period super-Earths have a different dependence on the host star metallicity from the longer-period super-Earths, with the transition period being in the period range from 70 to 100 days. The hosts of shorter-period super-Earths are on average more metal-rich than those of longer-period super-Earths. The existence of such a transition period cannot be explained by any single theory of super-Earth formation, suggesting that super-Earths have formed via at least two mechanisms.

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