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Scientists use stellar mass to link exoplanets to planet-forming disks
by Staff Writers
Charlottesville Va (SPX) Jun 24, 2021

Protoplanetary disks are classified into three main categories: transition, ring, or extended. These false-color images from the Atacama Large Millimeter/submillimeter Array (ALMA) show these classifications in stark contrast. On left: the ring disk of RU Lup is characterized by narrow gaps thought to be carved by giant planets with masses ranging between a Neptune mass and a Jupiter mass. Middle: the transition disk of J1604.3-2130 is characterized by a large inner cavity thought to be carved by planets more massive than Jupiter, also known as Super-Jovian planets. On right: the compact disk of Sz104 is believed not to contain giant planets, as it lacks the telltale gaps and cavities associated with the presence of giant planets.

Using data for more than 500 young stars observed with the Atacama Large Millimeter/Submillimeter Array (ALMA), scientists have uncovered a direct link between protoplanetary disk structures - the planet-forming disks that surround stars - and planet demographics.

The survey proves that higher mass stars are more likely to be surrounded by disks with "gaps" in them and that these gaps directly correlate to the high occurrence of observed giant exoplanets around such stars. These results provide scientists with a window back through time, allowing them to predict what exoplanetary systems looked like through each stage of their formation.

"We found a strong correlation between gaps in protoplanetary disks and stellar mass, which can be linked to the presence of large, gaseous exoplanets," said Nienke van der Marel, a Banting fellow in the Department of Physics and Astronomy at the University of Victoria in British Columbia, and the primary author on the research.

"Higher mass stars have relatively more disks with gaps than lower mass stars, consistent with the already known correlations in exoplanets, where higher mass stars more often host gas-giant exoplanets. These correlations directly tell us that gaps in planet-forming disks are most likely caused by giant planets of Neptune mass and above."

Gaps in protoplanetary disks have long been considered as overall evidence of planet formation. However, there has been some skepticism due to the observed orbital distance between exoplanets and their stars.

"One of the primary reasons that scientists have been skeptical about the link between gaps and planets before is that exoplanets at wide orbits of tens of astronomical units are rare. However, exoplanets at smaller orbits, between one and ten astronomical units, are much more common," said Gijs Mulders, assistant professor of astronomy at Universidad Adolfo Ibanez in Santiago, Chile, and co-author on the research. "We believe that planets that clear the gaps will migrate inwards later on."

The new study is the first to show that the number of gapped disks in these regions matches the number of giant exoplanets in a star system. "Previous studies indicated that there were many more gapped disks than detected giant exoplanets," said Mulders. "Our study shows that there are enough exoplanets to explain the observed frequency of the gapped disks at different stellar masses."

The correlation also applies to star systems with low-mass stars, where scientists are more likely to find massive rocky exoplanets, also known as Super-Earths. Van der Marel, who will become an assistant professor at Leiden University in the Netherlands beginning September 2021 said, "Lower mass stars have more rocky Super-Earths - between an Earth mass and a Neptune mass. Disks without gaps, which are more compact, lead to the formation of Super-Earths."

This link between stellar mass and planetary demographics could help scientists identify which stars to target in the search for rocky planets throughout the Milky Way. "This new understanding of stellar mass dependencies will help to guide the search for small, rocky planets like Earth in the solar neighborhood," said Mulders, who is also a part of the NASA-funded Alien Earths team.

"We can use the stellar mass to connect the planet-forming disks around young stars to exoplanets around mature stars. When an exoplanet is detected, the planet-forming material is usually gone. So the stellar mass is a 'tag' that tells us what the planet-forming environment might have looked like for these exoplanets."

And what it all comes down to is dust. "An important element of planet formation is the influence of dust evolution," said van der Marel. "Without giant planets, dust will always drift inwards, creating the optimal conditions for the formation of smaller, rocky planets close to the star."

The current research was conducted using data for more than 500 objects observed in prior studies using ALMA's high-resolution Band 6 and Band 7 antennas. At present, ALMA is the only telescope that can image the distribution of millimeter-dust at high enough angular resolution to resolve the dust disks and reveal its substructure, or lack thereof.

"Over the past five years, ALMA has produced many snapshot surveys of nearby star-forming regions resulting in hundreds of measurements of disk dust mass, size, and morphology," said van der Marel. "The large number of observed disk properties has allowed us to make a statistical comparison of protoplanetary disks to the thousands of discovered exoplanets. This is the first time that a stellar mass dependency of gapped disks and compact disks has been successfully demonstrated using the ALMA telescope."

"Our new findings link the beautiful gap structures in disks observed with ALMA directly to the properties of the thousands of exoplanets detected by the NASA Kepler mission and other exoplanet surveys," said Mulders. "Exoplanets and their formation help us place the origins of the Earth and the Solar System in the context of what we see happening around other stars."

Research Report: "A stellar mass dependence of structured disks: A possible link with exoplanet demographics"


Related Links
National Radio Astronomy Observatory
Lands Beyond Beyond - extra solar planets - news and science
Life Beyond Earth


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Earth-like biospheres on other planets may be rare
London, UK (SPX) Jun 23, 2021
A new analysis of known exoplanets has revealed that Earth-like conditions on potentially habitable planets may be much rarer than previously thought. The work focuses on the conditions required for oxygen-based photosynthesis to develop on a planet, which would enable complex biospheres of the type found on Earth. The study is published today in Monthly Notices of the Royal Astronomical Society. The number of confirmed planets in our own Milky Way galaxy now numbers into the thousands. However pl ... read more

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