Highly charged heavy ions form a very suitable experimental field for investigating quantum electrodynamics (QED), the best-tested theory in physics describing all electrical and magnetic interactions ...
Spin glasses are physical systems in which the small magnetic moments of particles (i.e., spins) interact with each other in a random way. These random interactions between spins make it impossible ...
Quantum electrodynamics in waveguide systems explores how individual quantum emitters interact with confined light modes guided along one-dimensional structures. By engineering the dispersive and ...
To put one of physicists’ most important theories to the test, scientists go to extremes. Extremely strong electromagnetic fields, that is. The theory of quantum electrodynamics, which describes ...
For the last 80 years, the theory of quantum electrodynamics (QED), which describes all electromagnetic interactions, has been a cornerstone of the standard model, withstanding the scrutiny of ...
Visualisation of the QED interactions in boron-like tin ions. Highly charged heavy ions form a very suitable experimental field for investigating quantum electrodynamics (QED), the best-tested theory ...
Entanglement sits at the heart of quantum technology, but it is rarely easy to make. The most powerful states often demand ...
Yale’s quest to build the world’s first, fully useful quantum computer is also the story of a small-town kid’s obsession with short-wave radios, a Parisian’s fond boyhood memories of America, and a ...
Quantum technologies are often associated with extraordinary complexity. The states that give quantum devices their potential advantage are notoriously difficult to create, maintain, and control.