When astronomers talk about the “dark universe,” they’re usually referring to things that can’t be seen directly – dark matter, which makes up most of the universe’s mass, and the earliest stages of galaxy formation. Now, astronomers using NASA’s Hubble Space Telescope have helped confirm the existence of a rare object that connects both ideas: a starless, gas-rich structure dominated by dark matter, known as Cloud-9.
Cloud-9 is located 14 million light-years from Earth. Unlike typical galaxies, this one does not shine. It contains a compact reservoir of neutral hydrogen gas but shows no evidence of star formation, making it the first confirmed example of an object long predicted by cosmological models but never conclusively observed. According to NASA, Cloud-9 appears to be a relic from the early universe: a structure that accumulated gas and dark matter but never ignited stars.
The discovery began with radio astronomy, not optical imaging. Neutral hydrogen naturally emits radiation at a wavelength of 21 centimeters, allowing radio telescopes to detect gas clouds that are otherwise invisible. Cloud-9 was first identified using China’s Five-hundred-meter Aperture Spherical Telescope and later confirmed with follow-up observations from facilities including the Green Bank Telescope in West Virginia, and the Very Large Array in New Mexico. These observations revealed a dense concentration of hydrogen gas with motion suggesting it is gravitationally bound.
Radio data alone, however, could not answer the critical question: was Cloud-9 hiding an extremely faint dwarf galaxy? Using Hubble, astronomers were able to get a better look.
Using deep observations from the Advanced Camera for Surveys instrument, Hubble imaged the region surrounding Cloud-9 at optical wavelengths with high resolution and sensitivity. Instead of detecting even a sparse population of stars, Hubble found none associated with the cloud.
What objects that were visible within the target region were consistent with distant background galaxies, not stars bound to Cloud-9. NASA said this absence of starlight allowed astronomers to classify Cloud-9 as a genuinely starless structure.
The result elevates Cloud-9 from an observational curiosity to a scientifically valuable object. It fits a theoretical category known as a Reionization-Limited H I Cloud, or RELHIC – dark matter halos that retained gas after the universe’s reionization era but never became dense enough to form stars. These objects are thought to be common in simulations, yet extraordinarily difficult to observe.
Cloud-9’s estimated gas mass is roughly one million times that of the Sun, while its dark matter halo may be thousands of times more massive. Without stars to complicate the environment, the object offers a uniquely clean laboratory for studying how dark matter behaves and how early cosmic structures either succeed, or fail, at becoming galaxies.
The discovery arrives at a time of rapid discovery in astronomy. NASA’s James Webb Space Telescope is uncovering unexpectedly mature galaxies in the early universe, reshaping timelines for star formation. Cloud-9 complements those findings by revealing the opposite outcome: what happens when the universe assembles mass but never produces light.
Even in the era of the James Webb Space Telescope, Hubble remains essential for probing faint, nearby structures that emit little or no light, where high-resolution optical imaging is critical. Discoveries like Cloud-9 show that Hubble continues to test core theories of galaxy formation and dark matter decades after launch.
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