Young, close-orbiting exoplanets known as sub-Neptunes may form farther from their stars and migrate inward or lose their ...

In the vast expanse of our universe, certain celestial bodies defy conventional classification. This challenges our ...

The early solar system was a dynamic and turbulent environment, where planetary migration significantly influenced the formation of celestial bodies. Jupiter’s movements, in particular ...

This interaction normally results in an exchange of angular momentum between the disc and planets, causing the planets to undergo radial migration, a process that is clearly important for explaining ...

The simulations tracked the collisions, growth and migration of planetesimals over ... environmental and planetary sciences. " Related research at Rice has explored aspects of this idea, but ...