The discovery of colossal structures like the Big Ring is reshaping established theories about the physics of the Universe.
Could adding extra dimensions help solve the quantum gravity puzzle?
Adding extra dimensions to a theory known as “fuzzy gravity” may help bridge the gap between quantum mechanics and relativity.
Magnetic fields from the beginning of time may resolve the Hubble tension
By adding primordial magnetic fields to the Standard Model, researchers may solve the mystery of the Universe’s expansion.
Saving a dark matter theory from a quantum tunneling flaw
Tiny interactions between dark matter particles may resolve discrepancies between theory and astronomical observations caused by quantum tunneling.
Hidden dark matter stars and where to find them
While dark matter’s enigmatic nature persists, Proca stars made of dark photons could help shed light on this cosmic mystery.
Satellite mission sets stage for unhackable quantum communication
Upcoming space experiment sets sights on encrypted quantum communication, which could also provide valuable insights into quantum gravity.
Neutron stars may be hiding quark matter in their cores
Massive neutron stars have such enormous pressure in their cores that neutrons residing there lose their integrity and become a new type of matter.
Scientists look for “new physics” beyond the Standard Model
Even a well-established theory like the Standard Model is not accurate all the time, and there are phenomena that defy its predictions.
BabyIAXO upgrade promises breakthrough in the hunt for dark matter
Scientists propose an enhancement to the BabyIAXO axion detector, paving the way for an intensified search for elusive dark matter particles.
A new mathematical description for entangled systems
The math of multi-particle entangled systems is fiendishly complex, but researchers have made a step forward.