Scientists in China have developed an AI model that analyzes stellar data from different telescopes, helping astronomers combine survey data.

Study led by University of Bonn finds galaxy clusters contain about twice as much normal matter as previously estimated, based on recalculated stellar populations and survey data.

The SpecCLIP model acts as a translator that can convert LAMOST's low-resolution spectra and Gaia's high-precision spectra into a universal language, allowing scientists to perform joint analyses with ...

BEIJING -- A Chinese research team has developed an artificial intelligence (AI) model called SpecCLIP, which can interpret stellar spectral data from different telescopes, demonstrating the vast ...

Disk galaxies, like our own Milky Way galaxy, commonly consist of both a thick and thin disk of stars—each with different features, including stellar population and movement. Three major theoretical ...

In the vast and diverse Universe, the initial mass distribution at the birth of a new population of stars determines the fate of galaxies. This relationship is described by the Initial Mass Function ...

Globular clusters, among the oldest bound stellar systems in the Universe, offer a unique laboratory for understanding stellar evolution and dynamics. Traditionally considered simple stellar ...

Densely packed, fast-moving stars at the Milky Way's center can collide with each other. New research uses simulations to explore the outcomes of these collisions. Some collisions are more like ...