University of Rome Tor Vergata's Prof. Naponiello discovers new evidence of planetary collisions

Astronomers have discovered a Neptune-sized planet with unprecedented density that is believed to have resulted from a massive planetary collision. The supercomputer simulations were performed using the facilities of the Advanced Computing Research Centre, University of Bristol in the UK. 

TOI-1853b's mass is almost twice that of any similar-sized planet known and its density is incredibly high, meaning that it is made up of a more significant fraction of rock than would typically be expected at that scale.

In the study, scientists led by Luca Naponiello of the University of Rome Tor Vergata suggest that this results from planetary collisions. These huge impacts would have removed some of the lighter atmosphere and water leaving a multitude of rocks behind.

Senior Research Associate and co-author Dr. Phil Carter from the University of Bristol’s School of Physics, explained: “We have strong evidence for highly energetic collisions between planetary bodies in our solar system, such as the existence of Earth's Moon, and good evidence from a small number of exoplanets.

“We know that there is a huge diversity of planets in exoplanetary systems; many have no analog in our solar system but often have masses and compositions between that of the rocky planets and Neptune/Uranus (the ice giants).

“Our contribution to the study was to model extreme giant impacts that could potentially remove the lighter atmosphere and water/ice from the original larger planet in order to produce the extreme density measured.

“We found that the initial planetary body would likely have needed to be water-rich and suffer an extreme giant impact at a speed of greater than 75 km/s in order to produce TOI-1853b as it is observed.”

This planet provides new evidence for the prevalence of giant impacts in the formation of planets throughout the galaxy. This discovery helps to connect theories for planet formation based on the solar system to the formation of exoplanets. The discovery of this extreme planet provides new insights into the formation and evolution of planetary systems.

Postgraduate student and co-author Jingyao Dou said: “This planet is very surprising! Normally we expect planets forming with this much rock to become gas giants like Jupiter which have densities similar to water.

“TOI-1853b is the size of Neptune but has a density higher than steel. Our work shows that this can happen if the planet experiences extremely energetic planet-planet collisions during its formation.

“These collisions stripped away some of the lighter atmosphere and water leaving a substantially rock-enriched, high-density planet."

Now the team plans detailed follow-up observations of TOI-1853b to attempt to detect any residual atmosphere and examine its composition.

Associate Professor and co-author Dr Zoë Leinhardt concluded: “We had not previously investigated such extreme giant impacts as they are not something we had expected. There is much work to be done to improve the material models that underlie our simulations, and to extend the range of extreme giant impacts modeled.”

Scientists have recently discovered a new giant planet, which suggests that there may have been planetary collisions in the past. This discovery is a significant milestone in our comprehension of planetary systems' formation and evolution, and it also opens up new possibilities for exploration and research. By conducting further research, we may gain a better understanding of how planets emerge and interact with one another. This could lead to the development of new technologies and strategies to explore and comprehend our Solar System and other planetary systems.

Funders include the Science and Technology Facilities Council  (STFC) and the China Scholarship Council.