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A closer look at Jupiter's origin story by Staff Writers Bern, Switzerland (SPX) Apr 06, 2022
Researchers of the University of Zurich (UZH) and the National Centre of Competence in Research (NCCR) PlanetS have investigated Jupiter's formation history in great detail. Their results suggest that the giant planet migrated far from its origin and collected large amounts of material on its journey. One of the most important open questions in planetary formation theory is the story of Jupiter's origin. Using sophisticated computer modelling, researchers of the University of Zurich (UZH) and the National Centre of Competence in Research (NCCR) PlanetS now shed new light on Jupiter's formation history. Their results were published in journal The Astrophysical Journal Letters.
A curious enrichment of heavy elements Since we now know that the interior of Jupiter is not fully mixed, we would expect heavy elements to be in a giant gas planet's deep interior as heavy elements are mostly accreted during the early stages of the planetary formation", study co-author, Professor at the University of Zurich and member of the NCCR PlanetS, Ravit Helled begins to explain. "Only in later stages, when the growing planet is sufficiently massive, can it effectively attract large amounts of light element gases like hydrogen and helium. Finding a formation scenario of Jupiter which is consistent with the predicted interior structure as well as with the measured atmospheric enrichment is therefore challenging yet critical for our understanding of giant planets ", Helled says. Of the many theories that have so far been proposed, none could provide a satisfying answer.
A long migration Yet, migration by itself is no guarantee for accreting the necessary material. "Because of complex dynamical interactions, the migrating planet does not necessarily accrete the planetesimals in its path. In many cases, the planet actually scatters them instead - not unlike a shepherding dog scattering sheep", Shibata points out. The team therefore had to run countless simulations to determine if any migration pathways resulted in sufficient material accretion. "What we found was that a sufficient number of planetesimals could be captured if Jupiter formed in the outer regions of the solar system - about four times further away from the Sun than where it is located now - and then migrated to its current position. In this scenario, it moved through a region where the conditions favoured material accretion - an accretion sweet spot, as we call it", Sho reports.
A new era in planetary science "It took us a long time in planetary science to get to a stage where we can finally explore these details with updated theoretical models and numerical simulations. This helps us close gaps in our understanding not only of Jupiter and our solar system, but also of the many observed giant planets orbiting far away stars", Helled concludes.
Research Report: "Enrichment of Jupiter's Atmosphere by Late Planetesimal Bombardment"
SwRI scientists connect the dots between Galilean moon, auroral emissions on Jupiter San Antonio TX (SPX) Apr 06, 2022 On November 8, 2020, NASA's Juno spacecraft flew through an intense beam of electrons traveling from Ganymede, Jupiter's largest moon, to its auroral footprint on the gas giant. Southwest Research Institute scientists used data from Juno's payload to study the particle population traveling along the magnetic field line connecting Ganymede to Jupiter while, at the same time, remotely sensing the associated auroral emissions to unveil the mysterious processes creating the shimmering lights. "Jupiter ... read more
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