Scientists from around the world are at Brown to discuss what is known, and what needs to be learned, about the long-sought particle discovered a decade ago.

APL is fusing its analytic and cutting-edge AI capabilities into a forward-leaning incubator, known as GenWar Lab, that ...

For the first time, scientists have detected two black hole mergers with spins so unusual they may reveal a new generation of ...

Blood microcirculation is a complex network that transports blood to tissues and organs through tiny blood vessels. When this ...

In 2024, TU Wien presented the world's first nuclear clock. Now it has been demonstrated that the technology can also be used ...

A team of researchers in Austria has recently demonstrated that the world’s first nuclear clock could help answer whether the ...

While this may complicate the quest for a clear experimental signature of quantum gravity, it does not render such tests useless. According to the research team, both classical and quantum models of ...

Though the principle is not violated, a new way of fudging its restrictions could lead to improvements in ultra-precise ...

Virtual particles exploit the natural fuzziness of the subatomic world, where if these ephemeral particles live briefly enough, they can also briefly borrow their energy from empty space. The haziness ...

Detecting dark matter—the mysterious substance that holds galaxies together—is one of the greatest unsolved problems in ...

Physicists have measured both the momentum and position of a particle without breaking Heisenberg’s iconic uncertainty principle. In quantum mechanics, particles don’t have fixed properties the way ...

An international team of physicists has found a way to “sidestep” the Heisenberg Uncertainty Principle, which posits that it is impossible to measure a particle’s location and momentum simultaneously.