Chip-Scale Device Enables Yale Engineers to ‘See Without Looking’
Engineers at the Yale School of Engineering & Applied Science have developed a chip-scale device that uses the wave-particle duality of single photons to sense…
Engineers at the Yale School of Engineering & Applied Science have developed a chip-scale device that uses the wave-particle duality of single photons to sense…
New neutron scattering experiments reveal the existence of quantum selection rules in molecules and could open the door to new insights about the quantum properties…
Nuclear scientists at the U.S. Department of Energy’s Lawrence Berkeley National Lab have made the most precise extraction to date of a key property of…
Using an optical microstructure and gold nanoparticles, researchers at the Max Planck Institute have amplified the interaction of light with DNA to the extent that…
Quantum physicists have teleported the quantum state of a photon to a crystal over 25 kilometers (16 miles) of optical fiber, smashing the previous record…
By crystallizing light, Princeton University researchers have begun to address questions about the fundamental study of matter. The researchers are not shining light through crystal…
Research from the University of Oxford establishes that superabsorption can be achieved and sustained in certain simple nanostructures, by trapping the system in a highly…
A new experiment at the SLAC National Accelerator Laboratory revealed a 3D grid of quantum “tornadoes” inside microscopic droplets of supercooled liquid helium, allowing scientists…
Engineers at the University of Chicago have used a diamond defect called a nitrogen vacancy center to clear a path toward better quantum computers and…
By using a technique that binds two electrons together so that their spins point in opposite directions, physicists at the Weizmann Institute of Science were…
Scientists from the Weizmann Institute of Science have taken another step forward toward building quantum computers, demonstrating a photonic router for the first time. Weizmann…
A team of scientists has tackled the first step in quantum error correction, successfully identifying errors as they happen in real time. Scientists at Yale…
New research from the RIKEN Center for Emergent Matter Science reveals how arrays of electrons trapped in nanoscale circuitry could form the basis for future…
Scientists at the Max Planck Institute have tested a new type of optical fiber with a hollow core, revealing that this type of optical fiber…
Physicists have experimentally encoded one qubit in entangled states distributed over 7 trapped-ion qubits and demonstrated the capability of the code to detect one-bit flip,…
A newly published study establishes that quantum contextuality is a critical resource for quantum speed-up within the leading model for fault-tolerant quantum computation, magic state…
Physicists have discovered new “quantum critical points” in a class of iron superconductors known as “oxypnictides,” furthering their understanding of quantum criticality. Quantum criticality, the…
Physicists from the University of Toronto have successfully measured multiple photons in an entangled NOON state, overcoming a major challenge in the science of measurement…