In a stunning leap for quantum optics, scientists have generated ultrafast light pulses whose quantum uncertainty can be ...

Abstract: With the growing emphasis on sustainable transportation, enhancing vehicular energy efficiency in mixed traffic scenarios has become a key focus, particularly in cooperative control ...

Quantum mechanics describes the weird behavior of microscopic particles. Using quantum systems to perform computation ...

Abstract: Conventional domain generalization (DG) assumes fully labeled source domains and consistent label spaces across domains. However, in industrial diagnostics, incomplete labeling is common, ...

"With this, we can detect very tiny changes in both position and momentum at once, beyond the limit of any classical sensor," ...

By using something called a quantum grid, scientists have found a clever way to simultaneously measure momentum and position without violating Heisenberg's uncertainty principle.

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.

Physicists have found a way to redistribute uncertainty in quantum measurements, paving the way for ultra-sensitive ...