24/7 Space News
EXO WORLDS
The evolution of the Trappist-1 planetary system
illustration only
The evolution of the Trappist-1 planetary system
by Cynthia Eller for CalTech News
Los Angeles CA (SPX) Aug 22, 2024

Planets are bodies that orbit a star and have sufficient gravitational mass that they form themselves into roughly spherical shapes that, in turn, exert gravitational force on smaller objects around them, such as asteroids and moons. For most of human history, the only planets our ancestors knew of were those they could see in the night sky. But in the last 30 years, telescopes sensitive enough to infer the presence of exoplanets-planets outside our own solar system-have been developed.

Exoplanets are, of course, much more difficult to directly observe than stars and galaxies. Almost all exoplanet discoveries, particularly starting around 2010, have been based on photometric measurements (the amount of light received) of the exoplanets' host stars, rather than of the planets themselves. This is called the transit method. Now, with the help of the Spitzer Space Telescope, which made its own first exoplanet detection in 2005; the Kepler/KW Space Telescope, specifically designed to search for exoplanets; and the James Webb Space Telescope, launched in 2021, the transit method and other techniques have confirmed the existence of more than 5,000 exoplanets inhabiting thousands of star systems.

"When we had only our own solar system to analyze, one could just assume that the planets formed in the places where we find them today," says Gabriele Pichierri, postdoctoral scholar research associate in planetary science at Caltech, working in the group of Professor of Planetary Science Konstantin Batygin. "However, when we discovered even the first exoplanet in 1995, we had to reconsider this assumption. We are developing better models for how planets are formed and how they come to be in the orientations we find them in."

Most exoplanets form out of the disc of gas and dust around newly formed stars and are then expected to migrate inward approaching the inner boundary of this disc. This assembles planetary systems that are much closer to the host star than is the case in our own solar system.

In the absence of other factors, planets will tend to space themselves apart from one another at characteristic distances based on their masses and gravitational forces between the planets and their host star. "This is the standard migration process," Pichierri explains. "The positions of the planets form resonances between their orbital periods. If you take the orbital period of one planet and then you divide it by the orbital period of its neighboring planet, you get a ratio of simple integers, such as 3:2." So, for example, if one planet takes two days to orbit around its star, the next planet, farther out, will take three days. If that second planet and a third one farther out are also in a 3:2 resonance, then the third planet's orbital period will be 4.5 days.

The Trappist-1 system, which hosts seven planets and is located about 40 light-years from Earth, is a special one for multiple reasons. "The outer planets behave properly, so to speak, with the simpler expected resonances," Pichierri says. "But the inner ones have resonances that are a bit spicier." The ratio between planet b and c's orbits is 8:5, for example, and that between c and d is 5:3. "This narrow discrepancy in the outcome of Trappist-1's assembly is puzzling and represents a wonderful opportunity to figure out in detail what other processes were at play in its assembly," he says.

"In addition, most planetary systems are thought to have started in these resonant states but have encountered significant instabilities in their lifespan before we observe them today," Pichierri explains. "Most planets go unstable or collide with one another, and everything gets shuffled. Our own solar system, for example, was affected by such an instability. But we know of a few systems that have remained stable, that are more or less pristine specimens. They, in effect, exhibit a record of their entire dynamical history that we can then attempt to reconstruct. Trappist-1 is one of these."

The challenge then was to develop a model that could explain the orbits of the Trappist-1 planets and how they reached their current configuration.

The resulting model suggests that the inner four planets initially evolved alone in the expected 3:2 resonance chain. It was only as the disc's inner boundary expanded outward that their orbits relaxed out of the tighter 3:2 chain into the configuration we observe today. The fourth planet, which originally sat on the inner boundary of the disc, moving farther out along with it, was later pushed back inward when three additional outer planets joined the planetary system at a later stage.

"By looking at Trappist-1, we have been able to test exciting new hypotheses for the evolution of planetary systems," Pichierri says. "Trappist-1 is very interesting because it is so intricate; it's a long planetary chain. And it's a great exemplar for testing alternative theories about planetary system formation."

Research Report:Forming the Trappist-1 system in two steps during the recession of the disc inner edge

Related Links
CalTech
Lands Beyond Beyond - extra solar planets - news and science
Life Beyond Earth

Subscribe Free To Our Daily Newsletters
Tweet

RELATED CONTENT
The following news reports may link to other Space Media Network websites.
EXO WORLDS
Citizen scientists confirm new warm Jovian-class exoplanet
Los Angeles CA (SPX) Aug 22, 2024
Two teams of dedicated amateur astronomers, supported by NASA, have successfully confirmed the existence of a new exoplanet, a "warm Jupiter," using their backyard telescopes. The teams, known as UNITE (UNISTELLAR Network Investigating TESS Exoplanets) and Exoplanet Watch, combined their efforts to validate the discovery of this exoplanet, which is now designated as TIC 393818343 b (also known as TOI 6883 b). "I pinch myself every day when I recall that I have made a meaningful scientific co ... read more

EXO WORLDS
NASA advances solar sail deployment efforts after initial delay

NASA supports research to enhance astronaut health on extended space missions

Relationships with Space Colonists

SpaceX will bring stranded Boeing Starliner crew home in February

EXO WORLDS
SpaceX Polaris Dawn launch pushed back after helium leak

Voyager Space joins Spaceport Nova Scotia development as key technical partner

Boeing's Starliner: a saga marked by setbacks

Flawed Boeing mission crew to return to Earth with rival SpaceX

EXO WORLDS
Study identifies key materials for shielding astronauts from Mars radiation

The means for mapping Martian meteorites

Western researchers help identify origins of Martian meteorites

Rocket Lab Prepares Twin Satellites for NASA Mars Mission Launch

EXO WORLDS
Shenzhou-18 Crew Tests Fire Alarms and Conducts Medical Procedures in Space

Astronauts on Tiangong Space Station Complete Fire Safety Drill

Shenzhou XVIII Crew Conducts Emergency Drill on Tiangong Space Station

Beijing Unveils 'Rocket Street' to Boost Commercial Space Sector

EXO WORLDS
UK Space Agency funds innovative satellite data projects to boost UK businesses

Loft Orbital and Marlan Space launch Orbitworks to make satellites in the Middle East

SpaceSight Tool by Scout Space Integrated into Saber Astronautics' Space Marketplace

Kenneth Possenriede Joins Rocket Lab Board of Directors

EXO WORLDS
GomSpace's Arctic satellite mission concludes successfully after 6 years

Salsa Satellite's reentry to be observed live from the sky

Cluster concludes with controlled reentry over South Pacific

Beyond Gravity joins MDA AURORATM supply chain with constellation computers

EXO WORLDS
SETI launches low-frequency search for extraterrestrial technology in distant galaxies

The evolution of the Trappist-1 planetary system

Locked in a glacier, viruses adapted to survive extreme weather

Florida Tech Astrobiologist explores likelihood of life originating on Earth

EXO WORLDS
Juice trajectory reset with historic Lunar-Earth flyby

NASA's Juno Mission Maps Jupiter's Radiation Using Danish Technology

Juice captures striking image of Moon during flyby

Ariel's Carbon Dioxide Indicates Potential Subsurface Ocean on Uranus' Moon

Subscribe Free To Our Daily Newsletters




The content herein, unless otherwise known to be public domain, are Copyright 1995-2024 - Space Media Network. All websites are published in Australia and are solely subject to Australian law and governed by Fair Use principals for news reporting and research purposes. AFP, UPI and IANS news wire stories are copyright Agence France-Presse, United Press International and Indo-Asia News Service. ESA news reports are copyright European Space Agency. All NASA sourced material is public domain. Additional copyrights may apply in whole or part to other bona fide parties. All articles labeled "by Staff Writers" include reports supplied to Space Media Network by industry news wires, PR agencies, corporate press officers and the like. Such articles are individually curated and edited by Space Media Network staff on the basis of the report's information value to our industry and professional readership. Advertising does not imply endorsement, agreement or approval of any opinions, statements or information provided by Space Media Network on any Web page published or hosted by Space Media Network. General Data Protection Regulation (GDPR) Statement Our advertisers use various cookies and the like to deliver the best ad banner available at one time. All network advertising suppliers have GDPR policies (Legitimate Interest) that conform with EU regulations for data collection. By using our websites you consent to cookie based advertising. If you do not agree with this then you must stop using the websites from May 25, 2018. Privacy Statement. Additional information can be found here at About Us.