Indian-Origin Scientist Claims Detection of Possible Signs of Life Beyond Earth

In what could mark a transformative moment in humanity’s search for extraterrestrial life, a team of international researchers led by Indian-origin astrophysicist Dr. Nikku Madhusudhan has found compelling evidence pointing toward the possible existence of life beyond Earth. Their findings center on K2-18b, an exoplanet located 120 light-years away in the constellation Leo.

Published in the Astrophysical Journal Letters, the study has captured the attention of astronomers and astrobiologists worldwide for its identification of key molecules in the planet’s atmosphere — including one that, on Earth, is produced exclusively by living organisms.

What Makes K2-18b a Promising Candidate?

K2-18b belongs to a class of planets called sub-Neptunes — celestial bodies that are larger than Earth but smaller than the gas giants like Neptune. These types of planets are common in the universe but have no counterpart in our solar system, making them difficult to study directly.

The planet was first discovered in 2017, but the recent deployment of the James Webb Space Telescope (JWST) has allowed scientists to investigate its atmospheric composition in unprecedented detail. The analysis was conducted as the planet passed in front of its host star, allowing light to filter through its atmosphere. By studying how different gases absorb starlight, researchers can determine what elements are present.

A Potential Biosignature: Dimethyl Sulfide

The most striking finding was the detection of dimethyl sulfide (DMS) — a molecule composed of sulfur, carbon, and hydrogen. On Earth, DMS is a byproduct of marine phytoplankton and is known as a potential biosignature — a chemical compound associated with biological processes.

“It is in no one’s interest to claim prematurely that we have detected life,” said Dr. Madhusudhan during a press briefing. “Still, based on our current data, the most plausible explanation is that K2-18b harbors a warm ocean environment that could support life.”

His team also found methane, carbon dioxide, and hydrogen in the atmosphere, consistent with predictions for a special category of exoplanets they refer to as Hycean worlds — planets that combine hydrogen-rich atmospheres with global oceans, potentially creating conditions suitable for life.

The Birth of the ‘Hycean World’ Theory

The term “Hycean” was coined by Dr. Madhusudhan and his team in 2021 to describe a new class of habitable planets. These are water-covered worlds surrounded by hydrogen-dominated atmospheres — a combination believed to create a climate capable of supporting microbial life, even in the absence of landmasses or Earth-like temperatures.

K2-18b fits many of the criteria for a Hycean planet. The newly identified molecular signatures strengthen the case for its potential habitability.

Scientific Caution and the Road Ahead

Despite the breakthrough, experts are urging restraint. The detection of biosignatures does not confirm the existence of life. Some scientists believe the same molecules could also arise through geological or chemical processes unrelated to biology.

“It’s a hint, not a confirmation,” said Stephen Schmidt, a planetary scientist at Johns Hopkins University.
“We still don’t know if K2-18b is truly habitable,” echoed Christopher Glein of the Southwest Research Institute.

There’s also the possibility that K2-18b could be a magma-covered rock with a dense, hot hydrogen atmosphere — a far less life-friendly environment. To resolve this, scientists hope to conduct lab-based simulations and await further observations from JWST and future telescopes.

A Race Against Time and Funding

As scientists push the boundaries of discovery, political challenges may interfere. Reports suggest that upcoming U.S. federal budgets could drastically reduce NASA’s funding for space science, potentially delaying or cancelling future missions designed to follow up on these findings.

“If funding is cut, the search for life elsewhere could come to a standstill,” warned Joshua Krissansen-Totton, an astrobiologist at the University of Washington.

The Beginning of a New Chapter

For now, the discovery represents one of the most promising steps toward answering a question that has fascinated humanity for centuries: Are we alone in the universe?

Whether or not life exists on K2-18b, the work of Dr. Madhusudhan and his team underscores how close we may be to finding out — not through science fiction, but through rigorous scientific inquiry and cutting-edge space technology.