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

Researchers from the University of Arizona, working with an international team, have captured and controlled quantum ...

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

By using something called a quantum grid, scientists have found a clever way to simultaneously measure momentum and position ...

Every second of modern life runs on precision — from GPS navigation to the time signals that keep the internet in sync. But ...

Squeezed light is a specialized form of light in which quantum fluctuations are redistributed between two complementary properties. According to quantum theory, light is characterized by ...

In a first-of-its-kind experiment, researchers have captured quantum uncertainty in real time using ultrafast pulses of light ...

A new study shows how ultrafast laser pulses can control quantum uncertainty, enabling faster, more secure communication.

John Clarke, Michel H. Devoret, and John Martinis built an electrical circuit-based oscillator on a microchip.

Note: The verification e-mail to complete your account registration should arrive immediately. However, in some cases it takes longer. Don't forget to check your spam folder.

Optical lattice clocks are emerging timekeeping devices based on tens of thousands of ultracold atoms trapped in an optical ...

A cornerstone of quantum physics is uncertainty. Heisenberg’s uncertainty principle states the more precisely you pinpoint the position of a particle, the less precisely you can know its momentum at ...