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

Three scientists won the Nobel Prize in physics Tuesday for research on the strange behavior of subatomic particles called quantum tunneling that enables the ultra-sensitive measurements achieved by ...

Dr Peter Verheyen from the Sola Society examines whether quantum mechanics and information serve as the fundamental descriptions of reality ...

Discover the groundbreaking work of John Clarke, Michel Devoret, and John Martinis in the field of quantum physics. Learn how they built real-world circuits that behave like quantum beings and ...

Abstract: The subentire-domain (SED) basis functions method is the most effective method for analyzing the electromagnetic (EM) properties of large-scale finite periodic structures (LFPSs). Recently, ...

Quantum mechanics shows that particles in our universe do not have fixed properties like everyday objects. They exist in a state of superposition until a disturbance forces them to "choose" ...

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

For centuries, scientific progress has depended on more precise tools for measuring the world around us. Galileo’s telescope revealed Jupiter’s moons and shook the geocentric universe.

This article explores how our understanding of the universe has evolved—from the scale of everyday experience down to the Planck length ...

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.