Quantum states controlled in silicon
‘Rydberg atoms’ could direct solid-state quantum computing
Read article: Quantum states controlled in silicon
Read article: Quantum states controlled in silicon
Plan for ‘nuclear clock’ unveiled
Solid-state system could be far simpler than atomic clocks
Read article: Plan for ‘nuclear clock’ unveiled
Spin-squeezed atoms boost interferometry
Entangled atoms beat classical limit
Read article: Spin-squeezed atoms boost interferometry
Both answers correct in century-old optics dilemma
Different momenta of light reflect wave-particle duality
Read article: Both answers correct in century-old optics dilemma
Physicists catch sight of trembling particle
Quantum stimulation validates Schrödinger's 1930 prediction
Read article: Physicists catch sight of trembling particle
Atomic spins measure ultracold temperatures
New thermometer could work down to a few trillionths of a Kelvin
Read article: Atomic spins measure ultracold temperatures
Measuring (almost) zero
Chad Orzel explains why a non-zero value for the electron's electric dipole moment could be the harbinger of "new physics"
Read article: Measuring (almost) zero
Snail shell spiral switched
Biophysicists change the chirality in developing snail embryos
Read article: Snail shell spiral switched
Scheme removes entropy from ultracold atoms
Transferring entropy from one gas to another should allow study of new quantum systems
Read article: Scheme removes entropy from ultracold atoms
Michelson–Morley experiment is best yet
Local Lorentz invariance for light confirmed at highest precision yet
Read article: Michelson–Morley experiment is best yet
