Astronomers detect a radio “heartbeat” billions of light-years from Earth
The clear and periodic pattern of fast radio bursts may originate from a distant neutron star.
The clear and periodic pattern of fast radio bursts may originate from a distant neutron star.
The moon sustained twice as many impacts as can be seen on its surface, scientists find.
Just 33 light-years from Earth, the system appears to host two rocky, Earth-sized planets.
The varied surface suggests a dynamic history, which could include metallic eruptions, asteroid-shaking impacts, and a lost rocky mantle.
The image reveals a glowing, donut-shaped ring at the Milky Way’s heart.
The system is orbited by third stellar companion and may have originated near the center of the Milky Way.
The findings will help scientists trace a black hole’s evolution as it feeds on stellar material.
Named after a goddess of the dawn, the Thesan simulation of the first billion years helps explain how radiation shaped the early universe.
Among thousands of known exoplanets, MIT astronomers flag three that are actually stars.
The planet’s night side likely hosts iron clouds, titanium rain, and winds that dwarf Earth’s jetstream.
An accidental discovery and a love of spectroscopic perturbations leads to the solution of a 90-year-old puzzle.
A new study shows it’s theoretically possible. The hypothesis could be tested soon with proposed Venus-bound missions.
The discovery, based on an unusual event dubbed “the Cow,” may offer astronomers a new way to spot infant compact objects.
Report led by MIT scientists details a suite of privately-funded missions to hunt for life on Earth's sibling planet.
The boiling new world, which zips around its star at ultraclose range, is among the lightest exoplanets found to date.