Quantum computing promises to solve complex problems exponentially faster than a classical computer, by using the principles ...

When quantum electrodynamics, the quantum field theory of electrons and photons, was being developed after World War II, one of the major challenges for theorists was calculating a value for the ...

Quantum electrodynamics (QED) is the unified “electroweak” theory of electromagnetism and the weak nuclear force, which governs nuclear processes such as radioactive beta decays that are ...

His expertise centers on quantum device theory, simulation, and design, utilizing the principles of quantum electrodynamics.

In quantum electrodynamics, however — the hugely successful, quantum-field-theory description of electromagnetic interactions — there are charged particles and electromagnetic coupling ...

It demonstrates that the use of a certain mathematical object called Alena Tensor reconciles various physical theories, including general relativity, electrodynamics, quantum mechanics and ...

Prof. Raven, publishing name W.D. Williams, is a dedicated and accomplished researcher in the field of atomic and molecular spectroscopy, with a particular focus on high-precision measurements that ...

Tilman Esslinger and his team conceived a realization of the Dicke-model of quantum electrodynamics using ultracold matter in optical cavities and demonstrated the paradigmatic phase transition to a ...

A hybrid system of atoms and photons could take today’s quantum computers into a future of tackling real-life problems. Conventional computers use nanoscale structures to process and store ...

High-Q cavities are essential for applications requiring strong light-matter interactions, such as cavity quantum electrodynamics (CQED). Fabry-Pérot cavities, also known as Fabry-Pérot etalons, ...