Artist’s concept illustration of electrically controlled optical frequency combs at wafer scale. Credit: Brian Long Fifteen years ago, UC Santa Barbara electrical and materials professor…
View More A Laser Breakthrough: First Commercially Scalable Integrated Laser and Microcomb on a Single Chip
A type of beetle capable of regulating its body temperature in some of the hottest places on Earth is the centerpiece of new research with…
View More Exotic Beetle That Can Survive in Volcanic Areas Inspires New Cooling Materials
Jung-Tsung Shen, associate professor in the Department of Electrical & Systems Engineering, has developed a deterministic, high-fidelity, two-bit quantum logic gate that takes advantage of…
View More Missing Piece Discovered in the Puzzle of Optical Quantum Computing
Researchers have developed a simple lab-based technique that allows them to look inside lithium-ion batteries and follow lithium ions moving in real time as the…
View More New Imaging Technique Shows How Smartphone Batteries Could Charge in Minutes
An artist’s impression of a neural network (left) next to an optical micrograph of a physical nanowire network. Credit: Adrian Diaz-Alvarez/NIMS Japan (for nanowire image)…
View More Nanowire Network at the “Edge of Chaos” Opens Pathway to Artificial Intelligence Discoveries
World’s fastest real-time quantum random number generator with a photonic integrated chip. Credit: Bing Bai and Yao Zheng At roughly the size of a fingertip,…
View More World’s Fastest: Quantum Random Number Generator Sets Benchmark for Size, Performance
A thin film polymer tunes the properties of an inkjet printed array of small microwave resonators. The composite device can be tuned to capture or…
View More Inkjet Printing “Impossible Materials” – Bend Light, Manipulate Energy, or Have Chameleon-Like Abilities
Engineers at MIT, Caltech, and ETH Zürich find “nanoarchitected” materials designed from precisely patterned nanoscale structures (pictured) may be a promising route to lightweight armor,…
View More Tougher Than Kevlar and Steel: Ultralight Material Withstands Supersonic Microparticle Impacts
Lightweight aerogel suspended in honeycomb structure. Credit: University of Bath Extremely low-density graphene-based aerogel ‘meringue’ can improve passenger comfort and reduce noise up to 80%.…
View More Meringue-Like Graphene-Based Aerogel Material Could Make Aircraft As Quiet as a Hairdryer
Creating high-density spintronic memory devices with large capacity and even neuromorphic devices that mimic biological neural systems. Credit: Tokyo University of Science Scientists develop an…
View More Spintronics Advances: Efficient Magnetization Direction Control of Magnetite for High-Density Spintronic Memory Devices