Webb exposes complex atmosphere of starless super-Jupiter

March 3, 2025
by Laura Betz, Margaret W. Carruthers, Hannah Braun, NASA



These light curves show the change in brightness of three different sets of wavelengths (colors) of near-infrared light


An international team of researchers has discovered that previously observed variations in brightness of a free-floating planetary-mass object known as SIMP 0136 must be the result of a complex combination of atmospheric factors, and cannot be explained by clouds alone.

Using NASA's James Webb Space Telescope to monitor a broad spectrum of infrared light emitted over two full rotation periods by SIMP 0136, the team was able to detect variations in cloud layers, temperature, and carbon chemistry that were previously hidden from view.

The results provide crucial insight into the three-dimensional complexity of gas giant atmospheres within and beyond our solar system. Detailed characterization of objects like these is essential preparation for direct imaging of exoplanets, planets outside our solar system, with NASA's Nancy Grace Roman Space Telescope, which is scheduled to begin operations in 2027.

Rapidly rotating, free-floating

SIMP 0136 is a rapidly rotating, free-floating object roughly 13 times the mass of Jupiter, located in the Milky Way just 20 light-years from Earth. Although it is not classified as a gas giant exoplanet—it doesn't orbit a star and may instead be a brown dwarf—SIMP 0136 is an ideal target for exo-meteorology: It is the brightest object of its kind in the northern sky. Because it is isolated, it can be observed with no fear of light contamination or variability caused by a host star. And its short rotation period of just 2.4 hours makes it possible to survey very efficiently.

Prior to the Webb observations, SIMP 0136 had been studied extensively using ground-based observatories and NASA's Hubble and Spitzer space telescopes.

More:
https://phys.org/news/2025-03-webb-exposes-complex-atmosphere-starless.html