Cosmological data suggest unexpected masses for neutrinos, including the possibility of zero or negative mass.

Quantum entanglement, an intriguing aspect of quantum physics, allows particles to remain interconnected regardless of ...

New research suggests that black holes may actually be "frozen stars," bizarre quantum objects that lack a singularity and an event horizon, potentially solving some of the biggest paradoxes in black ...

It is said that success breeds success, and that’s certainly true of the UK’s Quantum Hackathon – an annual event organized ...

Scientists at CERN have measured quantum entanglement in quarks at record energy levels.

Scientists may have found a way to see gravity for the first time ever. Here's everything that we know so far.

According to Wiley Industry News, the researchers used germanium vacancy centers (GeVs) in diamonds to create an optical ...

New findings unravel the mysteries of a bizarre physical state known as the pseudogap, which has close ties to the ...

Nearly imperceptible quantum flickers used to limit how precisely we could detect the way space-time ripples, but squeezing ...

By cleverly applying a computational technique, scientists have made a breakthrough in understanding the 'pseudogap,' a ...

Entanglement, previously seen in photons, has been observed in top quarks at the Large Hadron Collider in a first, marking a new high-energy milestone.

A long-awaited calculation of the W boson’s mass agrees with theory, contradicting a previous anomaly that had raised the ...