Unique, darkish astrophysical objects could also be hiding in interstellar area, and a brand new proposal outlines find out how to discover them: stare actually, actually arduous.
We do not know what darkish matter is, though we strongly suspect it exists. We see circumstantial proof for it in all places, from the rotation charges of galaxies to the expansion of the most important constructions within the cosmos. For many years, cosmologists have thought darkish matter is a few form of unique particle that was beforehand unknown to the Normal Mannequin of particle physics. This unusual particle wouldn’t work together with mild, or actually a lot of the rest, besides by way of its gravitational affect.
It might be that darkish matter is not product of zillions of tiny particles flying by way of the universe. As an alternative, it might be composed of bunched-up collections of a lot bigger objects. Specifically, the researchers behind a brand new research, revealed in November 2025 within the open entry server arXiv, investigated two sorts of unique objects.
The primary is called a boson star. On this mannequin, darkish matter is product of an ultra-ultra-ultra mild particle — doubtlessly thousands and thousands of instances lighter than neutrinos, the lightest identified particles. They might be so mild that their quantum nature would make them seem extra like waves at galactic scales than like particular person particles. However these waves would generally bunch up and accumulate on themselves, pulling along with their very own gravity, with out collapsing.
One other risk known as Q-balls. On this mannequin, darkish matter is not a particle in any respect however somewhat a quantum subject that soaks all of area and time. Attributable to a particular property of this subject, it may often pinch off, creating gigantic, secure, lump-like balls that wander the cosmos like a floating piece of flour in gravy that hasn’t been blended nicely.
Each boson stars and Q-balls, which reside underneath the extra common heading of unique astrophysical darkish objects (EADOs), are tough to detect. They’re massive — roughly star-size — however they don’t emit mild of their very own, making them almost invisible in our scans of the cosmos.
However astronomers have found a method that EADOs can betray their presence: microlensing. If a Q-ball or boson star had been to go between us and a distant star, the robust gravity of the EADO would trigger the sunshine from the star to behave as a gravitational lens. From our perspective, it will make the star seem to out of the blue bounce into place after which shortly return to regular.
So all we might should do is stare at an entire bunch of stars for a extremely very long time and hope we get fortunate. Fortunately, we’ve simply the instrument for the job. The Gaia area telescope‘s mission was to do exactly that: stare at an entire bunch of stars for a extremely very long time.
The astronomers behind the research suggest a marketing campaign utilizing Gaia knowledge to seek for Q-balls and boson stars by searching for their distinctive, “smoking gun” sign of sudden jumps in stellar positions. Relying on what number of are on the market, Gaia could have noticed as much as a number of thousand EADOs.
But when they don’t seem to be on the market, then this similar marketing campaign would produce stringent limits on Q-balls’ and boson stars’ contributions to the general darkish matter image. It doesn’t matter what, staring into the darkish would train us one thing.
