The Princeton Quantum Initiative’s Ph.D. program is helping pioneer a field that promises to define the next era of discovery ...

For the last 80 years, the theory of quantum electrodynamics (QED), which describes all electromagnetic interactions, has ...

Scientists, educators, and technology leaders around the world are marking World Quantum Day on Tuesday, with the annual ...

World Quantum Day spotlights the future of computing, and Ohio State is helping make Columbus a leader in quantum research, ...

Once a baffling theory, quantum mechanics has evolved into a driving force behind modern technology and frontier research.

A team of physicists set out to test some of the most exciting claims in quantum computing—and found a very different story. Instead of confirming breakthroughs, their careful replication studies ...

Overview: Today's high-performance cloud simulators surpass previous limits in handling qubits and accurately replicate ...

Advancing the rapidly growing field of photonic quantum information processing requires novel, highly scalable methods to ...

Noncommutative Quantum Field Theory represents an ambitious extension of standard quantum field theory that incorporates a fundamental noncommutativity in the structure of spacetime. In these models, ...

Researchers at the Technion—Israel Institute of Technology have, for the first time, measured the temporal duration of ...

A powerful new microscopy technique unveils hidden nanoscale light interactions, offering a glimpse into physics that ...

Quantum mechanics tells us that a particle can never be perfectly still. But how precisely can it be oriented? A research ...