DESI-HVS1 is an old hypervelocity star ejected from the galactic center, observations suggest - Astronomy & Space - Astronomy - UNIVERSE

Credit: Image generated by the editorial team using AI for illustrative purposes.

Chinese astronomers report the discovery of DESI-HVS1, which may be an old metal-poor hypervelocity star of galactic center origin. The finding, based on the data from the Dark Energy Spectroscopic Instrument (DESI) and ESA's Gaia satellite, was detailed in a research paper published April 23 on the arXiv pre-print server.

What are hypervelocity stars and where to find them?

Hypervelocity stars (HVSs) have substantially higher velocities (usually exceeding 500 km/s) than the rest of the stellar population of a galaxy, which allows them to even escape their host galaxies. They are usually produced by the so-called Hills mechanism when a binary system is disrupted by a supermassive black hole (SMBH) in the center of a galaxy.

Given that the galactic center, with its SMBH's strong gravitational potential, is one of the most dynamically extreme environments in the Milky Way, it produces frequent dynamical interactions. Due to this, it may be a good place to search for new hypervelocity stars. However, to date, only a few such stars can be directly linked to a galactic center origin, as uncertainties in distances and proper motions limit the precision of backward orbit integrations for these distant HVSs.

Location and direction of motion of DESI-HVS1 in the galaxy. The three panels show different projections in galactic Cartesian coordinates. The positions of the sun, the galactic center, and the solar circle are indicated by the orange star, red cross, and gray circle, respectively. The blue line indicates the path DESI-HVS1 will travel over the next 4 million years. The arrows show the velocity directions in each projection. Credit: arXiv (2026). DOI: 10.48550/arxiv.2604.21646

Ejected from the center of our galaxy

Now, a team of astronomers led by Shunhong Deng of the University of Chinese Academy of Sciences, has identified a star that may be a HVS ejected from the galactic center. They report the discovery of DESI-HVS1—an old, low-mass, metal-poor F-type star, which they classified as a HVS candidate.

"In this Letter, we report the discovery and detailed analysis of DESI-HVS1, the first candidate GC-origin HVS that is old, low-mass, and late-type, identified using spectroscopy from DESI DR1 and precise astrometry from Gaia DR3," the researchers write.

The properties of DESI-HVS1

According to the paper, DESI-HVS1 is located some 12,300 light years away and has a galactocentric total velocity of approximately 523 km/s, therefore comparable to the escape speed at its position. The astronomers noted that the present-day position and velocity vector of DESI-HVS1 suggest motion away from the galactic disk and outward from the inner Milky Way.

The collected data indicate that DESI-HVS1 passed within 1,300 light years of the galactic center about 12.9 million years ago, with an inferred ejection velocity of 682 km/s. Its orbit remains strongly ballistic, exhibiting a clear turning point near the perigalacticon and only a single crossing of the galactic midplane.

The study also found that DESI-HVS1 has a mass of 0.76 solar masses, effective temperature of 6,198 K, and metallicity at a level of -1.64 dex. The age of this star is estimated to be some 14.1 billion years.

Based on these results, the authors of the paper concluded that DESI-HVS1 is the first old, low-mass and metal-poor HVS candidate consistent with a galactic center origin through the Hills mechanism. Thus, if confirmed, this discovery will extend the known population of galactic center-ejected HVSs beyond the previously identified young and massive stars. 

by Tomasz Nowakowski, Phys.org

edited by Sadie Harley, reviewed by Robert Egan 

Source: DESI-HVS1 is an old hypervelocity star ejected from the galactic center, observations suggest