Astronomers from Cornell University said that exoplanets orbiting white dwarfs (WDs) should be thoroughly studied for the traces of alien life and the soon-to-be-launched next-generation James Webb Space Telescope will potentially come in handy in pursuing such an endeavour, a new study published in Astrophysical Journal Letters revealed.
“WDs are similar in size to Earth and have relatively stable environments for billions of years after initial cooling, making them intriguing targets for exoplanet searches and terrestrial planet atmospheric characterisation,” the paper argued.
The atmosphere of any potential exoplanets orbiting white dwarfs, which are much fainter than any new stars, can thus be probed with a help of powerful telescopes which can search for spectral biosignatures, such as methane and ozone. The powerful machines will be tasked with scrutinising the exoplanet’s transit in front of its dead hosting star, with scientists then analysing the planets’ atmosphere with the help of high-resolution images.
The Cornell paper can thus be defined as a kind of “spectral field guide” for future scientists that will help them study distant solar systems for signs of extra-terrestrial life, the Science Daily concluded, citing the comments from the researchers involved in the study.
“We wanted to know if light from a white dwarf - a long-dead star - would allow us to spot life in a planet's atmosphere if it were there,” said Lisa Kaltenegger, director of the Cornell's Carl Sagan Institute and associate professor of astronomy in the College of Arts and Sciences.
“If we would find signs of life on planets orbiting under the light of long-dead stars, the next intriguing question would be whether life survived the star's death or started all over again - a second genesis, if you will,” Kaltenegger revealed.
