Astronomers discover 87 stellar streams reshaping Milky Way research

14:20

By: Dakir Madiha

Astronomers discover 87 stellar streams reshaping Milky Way research

Astronomers at the University of Michigan have identified 87 stellar streams linked to globular clusters in the Milky Way, dramatically expanding the number of known structures and providing new tools to study dark matter and galactic evolution.

The findings, published in the Astrophysical Journal Supplements, were made possible by an automated detection algorithm called StarStream, applied to data from the European Space Agency’s Gaia satellite. The study was led by doctoral researcher Yingtian Chen under the supervision of Professor Oleg Gnedin.

Stellar streams are elongated trails of stars formed when globular clusters or dwarf galaxies are gradually torn apart by the Milky Way’s gravitational forces. These structures trace the galaxy’s gravitational field and offer valuable insight into both visible matter and dark matter.

Out of the 87 detected streams, 34 were classified as high quality, with strong completeness and accuracy. The remaining 53 were identified in more challenging regions affected by dust or dense stellar backgrounds. The high quality sample alone doubles the number of previously confirmed globular cluster streams.

Researchers say the StarStream algorithm significantly improves detection compared with earlier methods, which often relied on visual identification. The new approach allows scientists to uncover structures that may have been overlooked due to their complexity or irregular shapes.

Many of the newly identified streams challenge traditional expectations. Instead of appearing as narrow arcs aligned with the orbit of their parent clusters, some are broader, shorter, or misaligned. One structure associated with the cluster NGC 4147 resembles a circular patch rather than a typical stream. Scientists attribute these variations to the complex dynamics of massive clusters moving along diverse orbital paths.

The expanded catalog provides a foundation for future observations. Upcoming instruments, including NASA’s Nancy Grace Roman Space Telescope, the Vera C Rubin Observatory, and the Dark Energy Spectroscopic Instrument, are expected to deliver more detailed data. These observations could refine measurements of stellar streams and help test models of small scale dark matter distribution.

The study also examined how globular clusters lose mass over time. Estimated loss rates range from about one to 100 solar masses per million years. At high galactic latitudes, about 75 percent of globular clusters now show evidence of tidal streams, indicating that cluster disruption is widespread across the Milky Way.

Researchers concluded that the detection of irregular and misaligned streams highlights the importance of advanced modeling techniques. The results suggest that many stellar streams are dynamically complex, shaped by the mass and orbital history of their parent clusters.