Inside the Pegasus constellation, a planet is disintegrating into boiling chunks of rock and evaporating minerals. Its dramatic final days arenât due to cataclysmic surface events, but rather the proximity to its star. With a 30.5-hour orbit and a position about 20 times closer than Mercuryâs distance to our sun, BD+05 4868 Ab more resembles a comet than a planet, with a debris tail as much as 5.6 million miles long.
âThe extent of the tail is gargantuan⊠roughly half of the planetâs entire orbit,â Marc Hon, an MIT postdoc at the Kavli Institute for Astrophysics and Space Research, said in a statement.
Discovered by accident using NASAâs Transiting Exoplanet Survey Satellite (TESS), Hon and colleagues detail BD+05 4868 Abâs final days in a study published April 22 in The Astrophysical Journal Letters.
âWe werenât looking for this kind of planet,â Hon explained. âWe were doing the typical planet vetting, and I happened to spot this signal that appeared very unusual.â
An orbiting exoplanetâs signal typically features a brief, regularly repeating light curve dip that indicates itâs passing in front of a host star. BD+05 4868 Abâs brightness takes much longer to return to its normal measurement. This implies a long, trailing formation that continues to block host starlight. Each orbital rotationâs light dip also varies, indicating that the formation is dynamically shifting in size and composition.
Although the transit shape resembles a long-tailed comet, the composition doesnât align with that kind of space object.
âItâs unlikely that this tail contains volatile gases and ice as expected from a real cometâthese would not survive long at such close proximity to the host star,â said Hon. âMineral grains evaporated from the planetary surface, however, can linger long enough to present such a distinctive tail.â
Astronomers have only identified three disintegrating planets before BD+05 4868 Ab, all of which were detected over a decade ago using data collected by NASAâs Kepler Space Telescope. The newest find is the most violent example yet, with the longest tail and deepest transits of the four known examples.
âThat implies that its evaporation is the most catastrophic, and it will disappear much faster than the other planets,â said Hon.
âFasterâ is often relative when dealing with cosmic events, and BD+05 4868 Abâs case is no exception. Even losing an estimated Mount Everestâs worth of material with every orbit, it will still take 1â2 million years before the planet is completely destroyed. Until then, conditions on BD+05 4868 Ab will remain pretty hellish: surface temperatures reach an estimated 3,000 degrees Fahrenheit. Such constant, punishing heat also means the entire planet is likely covered in boiling magma as its mineral grains continue to evaporate into space.
âThis is a very tiny object, with very weak gravity, so it easily loses a lot of mass, which then further weakens its gravity, so it loses even more mass,â explained Avi Shporer, a study co-author at the TESS Science Office. âItâs a runaway process, and itâs only getting worse and worse for the planet.â
According to Shporer, itâs pure luck that astronomers detected BD+05 4868 Ab when they did.
âWe got lucky with catching it exactly when itâs really going away,â said Shporer. âItâs like [itâs] on its last breath.â
