![cfn-cotlet-lu-englund-nature-communications-large.jpg Diamond optical cavities allow laser light (green arrow) to excite electrons on atoms held within the cavities, transferring information about the atoms outward via light (red arrow).](/-/media/bes/images/highlights/2015/06/cfn-cotlet-lu-englund-nature-communications-large.jpg?h=748&w=850&la=en&hash=E25F25C78DDDB668411F7F93AF7FB7C861C016075019063AB7F16633CE946F2C)
Miniscule Mirrored Cavities Connect Quantum Memories
New structures could accelerate progress toward faster computing and high-security data transfer across fiber optic networks.
New structures could accelerate progress toward faster computing and high-security data transfer across fiber optic networks.
X-ray pulses from the Linac Coherent Light Source probe the molecular dynamics of photoexcitation.
Nanowire-based design incorporates two semiconductors to enhance absorption of light.
Study reveals peculiar mechanism of radical addition-elimination, enabling more accurate modeling of combustion and other reactions.
Hot nanostructures cool faster when they are physically close together.
For the first time, researchers detect how light excites electrons in metal.
Unusual structure, bonding, and properties may provide a new possibility for a californium borate.
Researchers develop a new process for annotating cellulose-degrading enzymes.
Small-scale device provides easy “plug-and-play” testing of molecules and materials for artificial photosynthesis and fuel cell technologies.
First description of common particle’s properties provides insights into the nature of the universe.
New research could change our view of neutron stars and other systems with neutron-rich nuclei.
Objective comparison of catalyst performance may enable the development of systems for artificial photosynthesis.