Webb directly images two planets orbiting white dwarfs
In several billion years, our sun will become a white dwarf. What will happen to Jupiter and Saturn when the sun transitions to become a stellar remnant? Life could go on, though the giant planets will likely drift further ...
Stars end their lives in different ways. Some meet their end as supernovae, cataclysmic explosions that destroy any orbiting planets and even sterilize planets light-years away. But only massive stars explode like that.
Our sun is not massive enough to explode as a supernova. Instead, it'll spend time as a red giant. The red giant phase occurs when a star runs out of hydrogen to feed fusion. It's a complicated process that astronomers are still working hard to understand. But red giants shed layers of material into space that light up as planetary nebulae. Eventually, the red giant is no more, and only a tiny, yet extraordinarily dense, white dwarf resides in the middle of all the expelled material.
Our sun is not massive enough to explode as a supernova. Instead, it'll spend time as a red giant. The red giant phase occurs when a star runs out of hydrogen to feed fusion. It's a complicated process that astronomers are still working hard to understand. But red giants shed layers of material into space that light up as planetary nebulae. Eventually, the red giant is no more, and only a tiny, yet extraordinarily dense, white dwarf resides in the middle of all the expelled material.
Researchers think that some white dwarfs have debris disks around them, out of which a new generation of planets can form. But researchers have also wondered if some planets can survive as stars transition from the main sequence to red giant to white dwarf.
Researchers at the Space Telescope Science Institute, Goddard Space Flight Center, and other institutions have found what seem to be two giant planets orbiting two white dwarfs in two different systems. Their research is titled "JWST Directly Images Giant Planet Candidates Around Two Metal-Polluted White Dwarf Stars," and it's in preprint right now on arXiv. The lead author is Susan Mullally, Deputy Project Scientist for JWST.
Researchers at the Space Telescope Science Institute, Goddard Space Flight Center, and other institutions have found what seem to be two giant planets orbiting two white dwarfs in two different systems. Their research is titled "JWST Directly Images Giant Planet Candidates Around Two Metal-Polluted White Dwarf Stars," and it's in preprint right now on arXiv. The lead author is Susan Mullally, Deputy Project Scientist for JWST.
Artist's rendition of a white dwarf from the surface of an orbiting exoplanet. Astronomers have found two giant planet candidates orbiting two white dwarfs. More proof that giant planets can surve their stars' red giant phases. Credit: Madden/Cornell University
Artist’s impression of a red giant star. As these stars lose mass, they expand and can envelop planets that are too close. Credit: NASA/ Walt Feimer
This artist’s illustration shows rocky debris being drawn toward a white dwarf. Astronomers think that giant planets perturb smaller objects like asteroids and comets inside the WD’s Roche limit. They’re destroyed, and the debris is drawn onto the star’s surface. Credit: NASA, ESA, Joseph Olmsted (STScI)
This figure from the research explains some of the findings. Each row is a separate white dwarf and planet candidate. In the top row, the large object in the north is a background galaxy unrelated to the research. The researchers went through a process of subtracting and then adding back in both the stars and the giant planet candidates. Credit: Mullally et al. 2024