Online volunteers are being asked to spot tiny explosions that could be evidence of particles that will require new models of physics. Higgs Hunters, a project launched today by UK and U.S. scientists working on the ATLAS experiment, enables members of the public to view 25,000 images recorded at CERN’s Large Hadron Collider.
The first 3-D printer in space has popped out a creation. The 3-D printer delivered to the...
Physicists have fabricated an innovative substance from two different atomic sheets that...
In their theoretical work, spurred by laboratory observations of colloidal glasses, researchers have proposed to use 19th century concepts developed by Maxwell, the founder of electromagnetism, to study the stability of mechanical structures, like colloidal glasses.
The first detailed, high-resolution 3-D maps of Antarctic sea ice have been developed using an underwater robot. Scientists from the UK, U.S. and Australia say the new technology provides accurate ice thickness measurements from areas that were previously too difficult to access.
Scientists have come up with a way of greatly reducing that the unpredictability of biological circuits, introducing a device that could ultimately allow such circuits to behave nearly as predictably as their electronic counterparts.
Watch even the most careful waiter bring a cup of coffee to your table, and you’ll realize that carrying liquid is not easy. When set in motion, the coffee starts sloshing, little waves appear and spilling may ensue, leaving you with a half-empty cup. Beer, on the other hand, does not slosh as readily.
Ice poses major impediments to winter travel, accumulating on car windshields and airplane wings and causing countless unsuspecting pedestrians to dramatically lose their balance. Now, a team of researchers has developed a new way to prevent ice buildup on surfaces like airplane wings, finding inspiration in an unusual source: the poison dart frog.
Modern hand dryers are much worse than paper towels when it comes to spreading germs, according to new research. A study found that airborne germ counts were 27 times higher around jet air dryers in comparison with the air around paper towel dispensers.
Scientists at the world's largest smasher announced today that they have discovered two new subatomic particles never seen before that could widen our understanding of the universe. The find could shed more light on how things work beyond the Standard Model physics theory explaining the basic building blocks of matter.
On a quest to design an alternative to the two complex approaches currently used to produce electrons within microwave electron guns, a team of researchers has demonstrated a plug-and-play solution capable of operating in this high-electric-field environment with a high-quality electron beam.
Studies have suggested that the production of Higgs particles during the accelerating expansion of the very early universe should have led to instability and collapse. Now, a team has described how the space-time curvature– in effect, gravity– provided the stability needed for the universe to survive expansion.
Air tour operators at the Grand Canyon would be able to take more visitors over the most popular flight routes under a proposed incentive to make aircraft quieter. The incentive would apply to the Dragon and Zuni Point corridors, which provide views of the widest and deepest parts of the canyon to the eastern edge.
Physicists have engineered a spiral laser beam and used it to create a whirlpool of hybrid light-matter particles called polaritons. The ability to control polariton flows in this way could aid the development of completely novel technology to link conventional electronics with new laser- and fiber-based technologies.
Researchers from the Univ. of Cambridge have developed artificial muscles that can learn and recall specific movements, the first time that motion control and memory have been combined in a synthetic material. The "muscles," made from smooth plastic, could eventually be used in a wide range of applications where mimicking the movement of natural muscle would be an advantage.
Since the 1850s scientists have known that crystalline materials are organized into fourteen different basic lattice structures. However, a team of researchers is reporting that it has discovered an entirely new form of crystalline order that simultaneously exhibits both crystal and polycrystalline properties, which they describe as "interlaced crystals."
The most accurate laboratory measurements yet made of magnetic fields trapped in grains within a primitive meteorite are providing important clues to how the early solar system evolved. The measurements point to shock waves traveling through the cloud of dusty gas around the newborn Sun as a major factor in solar system formation.
The international standard for time is set by atomic clocks— room-sized apparatuses that keep time by measuring the natural vibration of atoms in a vacuum. Now, researchers have come up with a new approach to atomic timekeeping that may enable more stable and accurate portable atomic clocks, potentially the size of a Rubik’s cube.
A new study suggests how scientists might deliberately engineer superconductors that work at higher temperatures. These findings open a new chapter in the 30-year quest to develop superconductors that operate at room temperature, which could revolutionize society by making virtually everything that runs on electricity much more efficient.
Tiny, thin microtubes could provide a scaffold for neuron cultures to grow so that researchers can study neural networks, their growth and repair, yielding insights into treatment for degenerative neurological conditions or restoring nerve connections after injury.
Researchers have chemically engineered a new, electrically conductive nanomaterial that is flexible enough to fold, but strong enough to support many times its own weight. They believe it can be used to improve electrical energy storage, water filtration and radiofrequency shielding in technology from portable electronics to coaxial cables.
A group of researchers from Austria have sent twisted beams of light across the rooftops of Vienna. It is the first time that twisted light has been transmitted over a large distance outdoors, and could enable researchers to take advantage of the significant data-carrying capacity of light in both classical and quantum communications.
Researcher teams have independently developed methods of making super-slippery surfaces by creating stable mixtures of liquids and solids. The developments promise consumer applications such as toothpaste tubes that release the last portions of their contents without the need to roll them up and bottles that deliver ketchup as soon as they are tilted, eliminating the need to squeeze or shake them.
Researchers have invented a single tiny structure that includes all the components of a battery that they say could bring about the ultimate miniaturization of energy storage components. The structure is called a nanopore: a tiny hole in a ceramic sheet that holds electrolyte to carry the electrical charge between nanotube electrodes at either end.
Last year, CERN announced the finding of a new elementary particle, the Higgs particle. But maybe it wasn't the Higgs particle, maybe it just looks like it. And maybe it is not alone.
A new study, which teamed cutting-edge engineering techniques with paleontology, has found that take-off capacity may have determined body size limits in extinct flying reptiles. Findings suggest that a pterodactyl with a wingspan of 12 meter or more would simply not be able to get off the ground.
Since 1999, the conjecture by Asher Peres— who invented quantum teleportation— has piqued the interest of many scientists in the field. According to his hypothesis, the weakest form of quantum entanglement can never result in the strongest manifestation of the phenomenon. Now, a team of researchers has proven this conjecture to be false.
Scientists have shown that a promising technique for accelerating electrons on waves of plasma is efficient enough to power a new generation of shorter, more economical accelerators. This could greatly expand their use in areas such as medicine, national security, industry and high-energy physics research.
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