What's up in
The solutions to Einstein’s equations that describe a spinning black hole won’t blow up, even when poked or prodded.
Surprising as it may sound, 107 years after the introduction of general relativity, the meanings of basic concepts are still being worked out.
The “gravitational memory effect” predicts that a passing gravitational wave should forever alter the structure of space-time. Physicists have linked the phenomenon to fundamental cosmic symmetries and a potential solution to the black hole information paradox.
Time was found to flow differently between the top and bottom of a single cloud of atoms. Physicists hope that such a system will one day help them combine quantum mechanics and Einstein’s theory of gravity.
Spurred on by quantum experiments that scramble the ordering of causes and their effects, some physicists are figuring out how to abandon causality altogether.
A new study shows that extreme black holes could break the famous “no-hair” theorem, and in a way that we could detect.
Roger Penrose, Reinhard Genzel and Andrea Ghez were awarded the Nobel Prize in Physics for their studies of black holes.
Get highlights of the most important news delivered to your email inbox