New study challenges conventional planet formation theory
London: Findings of a recent study are challenging scientists’ understanding of planet formation, suggesting that planets might form much faster than previously thought or, alternatively, that stars harbouring planets could be far more numerous.
The study—a collaboration between scientists at the University of Georgia; the University of California, San Diego; the University of California, Los Angeles; California State Polytechnic University and the Australian National University—began with a curious and unexpected finding: Within three years, the cloud of dust circling a young star in the Scorpius-Centaurus stellar nursery simply disappeared.
“The most commonly accepted time scale for the removal of this much dust is in the hundreds of thousands of years, sometimes millions,” said study co-author Inseok Song, assistant professor of physics and astronomy in the UGA Franklin College of Arts and Sciences.
“What we saw was far more rapid and has never been observed or even predicted. It tells us that we have a lot more to learn about planet formation,” Song noted.
The scientists first identified their star of interest by examining data from the Infrared Astronomical Satellite, or IRAS, which surveyed more than 96 percent of the sky in 1983. The star, known as TYC 8241 2652 1, was surrounded by a cloud of dust that was identifiable by its distinctive radiation of infrared energy.
Like a skillet absorbing heat and then radiating it, the dust cloud was absorbing energy from the central star and radiating it in the infrared range. This warm dust is thought to be the raw material from which planets form, but scientists don’t have a clear understanding of how long the process takes.
The scientists observed the same star in 2008 using a mid-infrared imager at the Gemini South Observatory in Chile and again with the same ground-based telescope in 2009. The 2008 observation revealed an infrared emission pattern similar to the 1983 measurement, but something surprising happened in 2009: The infrared emission dropped by nearly two-thirds.
NASA’s Wide-field Infrared Survey Explorer, or WISE, looked at the same star again in 2010, and the scientists found that the dust had mostly disappeared. The scientists confirmed their findings using two additional telescopes, the Japanese AKARI telescope and the European Space Agency’s Photodetector Array Camera and Spectrometer, or PACS, at the Herschel Space Observatory, and the pattern held.
The researchers explored several different explanations for how such a large quantity of dust could disappear so rapidly, and each of their explanations challenges conventional thinking about planet formation.
Runaway accretion. The most commonly held theory of planet formation is that minute particles of dust left over after a star forms clump onto each other, first through weak electrostatic interactions and later through gravitational forces. The aggregated dust particles eventually grow to become pebble-sized and then car- to house-sized objects. Ultimately, they become planets.
The timescale at which this accretion occurs has been theorized and modelled mathematically, and Song said it is commonly thought to occur over hundreds of thousands of years, a time period that spans civilizations on Earth but is an astronomical blink of an eye.
“If what we observed is related to runaway growth, then our finding suggests that planet formation is very fast and very efficient. The implication is that if the conditions are right around a star, planet formation can be nearly instantaneous from astronomical perspective,” Song said.
The star that the scientists observed is 450 light years away, however, which means any planet formed would not be visible with today’s technology.
Song added that a slightly different version of the “runaway accretion” theory suggests that dust grains accrete onto the central star in a very short timescale, implying that the star effectively eliminates planet-building material. If such events occur frequently, planet formation is much less likely than previously thought.
Collisional avalanche. Another explanation for the sudden disappearance of the dust is that it was expelled from the sun’s orbit. Song explained that the particles are so small—a hundred times smaller than a grain of sand—that the constant stream of photons emanating from the sun could push them away and into each other, like pinballs, until they leave the suns’ orbit.
Because large clouds of dust can be formed when orbiting planets crash into each other, astronomers have often viewed the presence of such clouds as indirect evidence of unseen planets. If clouds of dust are only fleeting, however, then many more stars than previously thought could harbor planets.
“People often calculate the percentage of stars that have a large amount of dust to get a reasonable estimate of the percentage of stars with planetary systems, but if the dust avalanche model is correct, we cannot do that anymore. Many stars without any detectable dust may have mature planetary systems that are simply undetectable,” Song said.
The study published in the July 5 edition of the journal Nature.
More from India
More from World
More from Sports
More from Entertaiment
- CM Kejriwal shortlists 39 'unwanted' IAS officers in Delhi
- Rajasthan: Gujjars revive reservation agitation, block rail track
- J Jayalalithaa sworn-in as Chief Minister of Tamil Nadu
- Dr Subhash Chandra Show: Aspiring for more than what you have!
- ISIS to buy first nuclear weapon from Pak?
- Mumbai: CCTV captures assailant with gun at Film City
- Mathura SSP receives death threat letter, message for PM Modi
- BJP now central pole of Indian politics: Arun Jaitley
- Maharashtra FDA sends Maggi noodles for lab testing
- Watch: Fast N Facts @ 7:30pm
- Haridwar: Hotel Radisson Blu sealed for polluting Ganga
- Delhi: Two killed in road accident in New Ashok Nagar
- Girl in Punjab's Pathankot quit studies for fear of eve-teasing
- Fiji: Floating island restaurant in middle of ocean
- Special: Furious over rising water crisis, people take to the streets
- Goa Board SSC Exam Results 2015 announced
- Rahul Gandhi to pressurise govt to act on one-rank-one-pension issue
- ISIS close to buying nuclear weapon from Pakistan?
- Manohar Parrikar visits forward areas along LoC, reviews security situation
- There will be no delay in appointing CIC, CVC: Jitendra Singh
- Credibility of Prime Minister's Office restored by BJP, says Arun Jaitley
- ISIS justifies raping slave girls, says Michelle Obama is 'worth $40'
- Arvind Kejriwal to highlight AAP govt's 100 days work on Monday
- 'Unhappy' Celina Jaitley asks Sunny Leone to move out?
- BJP's plan for one-year celebration: 200 big rallies, 5,000 public meetings
- IPL 2015 Final: Mumbai Indians vs Chennai Super Kings - Preview
- Heatwave leaves 153 dead in Telangana, Andhra Pradesh
- CBSE Results 2015: 10th board exam results to be declared on May 27
- IPL 8 Final: We need to be at our best against Mumbai, says Michael Hussey
- Jayalalithaa returns as Tamil Nadu CM: As it happened