A team at Caltech has figured out a way to encode more than one holographic image in a single surface without any loss of resolution.
Read more about Two Holograms in One Surface
Rice University physicists dedicated to creating the working components of a fault-tolerant quantum computer have succeeded in creating a previously unseen state of matter.
Read more about Rules for Superconductivity Mirrored in 'Excitonic Insulator'
Northern Arizona University Regents’ Professor Bruce Hungate, director of the Center for Ecosystem Science and Society (Ecoss), recently joined a new initiative lead by LLNL to study how the soil microbiome controls the mechanisms that regulate the stabilization of the organic matter in soil.
Read more about NAU Researchers Join Department of Energy Project to Study the Soil Microbiome and its Effect on Carbon Persistence
By developing a novel technique, researchers from the University of Illinois at Urbana-Champaign; University of Illinois; University of California, Berkeley; and University of Amsterdam have measured for the first time the collective excitations of the low-energy bosonic particles and observed the precursor to exciton condensation, a soft plasmon phase.
Read more about Physicists Excited by Discovery of New Form of Matter, Excitonium
Construction of instruments with an optical lens so powerful that it lets you view features the size of a small virus on the surface of a living cell in its natural environment is now possible because of a fundamental advance in the quality of an optical material used in hyperlensing, a method of creating lenses that can resolve objects much smaller than the wavelength of light.
Read more about Hyperlens Crystal Capable of Viewing Living Cells in Unprecedented Detail
A team of scientists using a state-of-the-art UCLA instrument reports the discovery of a planetary-scale “tug-of-war” of life, deep Earth and the upper atmosphere that is expressed in atmospheric nitrogen.
Read more about Discovery About Rare Nitrogen Molecules Offers Clues to Makeup of Other Life-Supporting Planets
Modern synchrotron x-ray sources, such as the Cornell High Energy Synchrotron (CHESS), produce x-ray beams with unprecedented capabilities. Scientists and engineers use the beams to study the properties of materials as they are subjected to rapid changes in environmental conditions.
Read more about X-Ray Detector for Studying Characteristics of Materials
Edmund “Ed” Synakowski received the DOE’s Meritorious Service Award Wednesday in a ceremony at UW, “for strong and insightful leadership” as the agency’s associate director of science for the past eight years. He began his work at UW in August.
Read more about U.S. Department of Energy Honors UW VP Synakowski
A team of researchers, led by Stephen Good, a hydrologist at Oregon State University, have determined what could be considered a “Goldilocks” climate for rainfall use by plants: not too wet and not too dry.
Read more about Researchers Model Optimal Amount of Rainfall for Plants
The intensive, worldwide search for dark matter, the missing mass in the universe, has so far failed to find an abundance of dark, massive stars or scads of strange new weakly interacting particles, but a new candidate is slowly gaining followers and observational support.
Read more about MACHOs are Dead. WIMPs are a No-show. Say Hello to SIMPs.
University of Wisconsin-Madision researchers and international collaborators have created a unique process for making a high-quality magnetoelectric material and are now able to view the changing electric and magnetic properties switching in real time.
Read more about ‘Magnetoelectric’ Material Shows Promise as Memory for Electronics
The direct oxidation of methane—found in natural gas—into methanol at low temperatures has long been a holy grail. Now, researchers at Tufts have found a breakthrough way to accomplish the feat using a heterogeneous catalyst and cheap molecular oxygen.
Read more about Researchers Discover Breakthrough Process for Directly Converting Methane to Methanol
