JWST’s mid-infrared images of Sagittarius B2 uncover dense clouds of cosmic dust hiding active star formation.

The first stars in the universe formed out of pristine hydrogen and helium clouds, in the first few hundred million years ...

Why Sagittarius B2 produces so many stars in comparison to the rest of the galactic center has remained an enduring mystery ...

A growing list of dark star candidates could help explain why some early galaxies were so big, so early in the universe.

On Monday night, Ohio State will line up against Notre Dame, with a national championship on the line for both storied programs in the College Football Playoff. The players and coaches won’t be the ...

Abstract: Traditional coding education often fails to engage and motivate beginners due to its lack of interactivity and personalized learning experiences. This paper presents a gamified learning ...

Interstellar objects like 3I/ATLAS that have been captured in planet-forming disks around young stars could become the seeds of giant planets, bypassing a hurdle that theoretical models have ...

The beams hint at the true scale of the massive star that spawned them. A massive star on the distant outskirts of our Milky Way galaxy is seen blowing a powerful cosmic blowtorch in a new image ...

Experiments for ICML paper DICOD: Distributed Convolutional Coordinate Descent for Convolutional Sparse Coding, ICML 2018, T. Moreau, L. Oudre, N. Vayatis.

A newly observed planet-forming disk, unexpectedly rich in carbon dioxide instead of water, is challenging long-held ideas about how planets are born. (Artist’s concept). Credit: SciTechDaily.com A ...

A computational model of the early-to-present-day Universe predicts that some of the first stars formed in structures that challenge conventional classification. Read the paper: The emergence of ...