NASA’s largest space telescope, the James Webb Space Telescope (JWST), launched in 2021, has dramatically expanded our view of the universe, delving deeper into the cosmos than ever before. It’s not just about celestial bodies; it also addresses age-old questions about our existential uniqueness: Are we alone? Could life be a singular phenomenon exclusive to Earth, or is the universe teeming with sentient beings?
According to an April 26 report by The Times, the James Webb Space Telescope is set to focus on a distant exoplanet, following the discovery of what might be a vital sign of extraterrestrial life. This planet, found in a different solar system, reportedly contains a type of gas that could “only be produced by life.”
Situated below the constellation Leo, the red dwarf star K2-18, about half the size of our sun and invisible to the naked eye, hosts the planet known as K2-18b. Believed to be covered with oceans, this planet is about 2.6 times the size of Earth. A peculiar compound, dimethyl sulfide (DMS), suspected to exist in the planet’s atmosphere, hints at potential life forms. On Earth, the production of DMS is exclusively biological, primarily originating from marine phytoplankton, NASA notes.
Dr. Nikku Madhusudhan, the lead astrophysicist on the project from Cambridge, informed The Times that preliminary data from the JWST suggests the presence of DMS with over 50% certainty, though conclusive evidence is still pending. He plans to await the telescope’s eight-hour observation session scheduled for Friday, focused specifically on detecting DMS, before making any definitive statements. Following this, months of data analysis will be necessary.
K2-18b, located 124 light-years away, is relatively close by cosmic measures
So far, scientists have not identified any natural geological or chemical processes that could generate DMS without biological activity. K2-18b, located 124 light-years away, is relatively close by cosmic measures, yet a spacecraft traveling at the speed of Voyager, about 38,000 mph, would require approximately 2.2 million years to reach it, translating to about 2175.44 human years.
In his discussions with The Times, Dr. Madhusudhan also noted that the results clearly showed methane, carbon dioxide and a lack of ammonia.
“It solved a more than decade-long mystery, literally called the ‘missing methane problem’.” Though “theoretical work” on whether the gas may have a non-living source is ongoing, conclusions won’t be known for four to six months.