Trapping and excitation of the simplest molecule: Precise measurement matches theoretical predictions
The simplest possible molecule H2+ was one of the very first molecules to form in the cosmos. This makes it significant for astrophysics, but also an important object of research for fundamental physics. However, it is difficult to study in experimen.....»»
Quantum walk computing unlocks new potential in quantum science and technology
Quantum walks are a powerful theoretical model using quantum effects such as superposition, interference and entanglement to achieve computing power beyond classical methods......»»
Neural networks unlock potential of high-entropy carbonitrides in extreme environments
The melting point is one of the most important measurements of material properties, which informs potential applications of materials in various fields. Experimental measurement of the melting point is complex and expensive, but computational methods.....»»
Dual-comb method achieves first precise absolute distance measurement over 100 km
A team of physicists and engineers at China's Hefei National Laboratory has succeeded in conducting the first instance of precise absolute distance measurement over a path exceeding 100 km. The group has written a paper describing how they achieved s.....»»
Most precise measurement of electrically neutral beauty meson lifetime achieved
The ATLAS collaboration at the Large Hadron Collider (LHC) has released a new high-precision measurement of the lifetime of the electrically neutral beauty (B0) meson—a hadron composed of a bottom antiquark and a down quark......»»
Sugar solution matches antibiotics in treating cow infections
A concentrated sugar solution could be just as effective as antibiotics at treating a common infection in dairy cows, according to a new study led by researchers at Penn State. The results were recently published in the journal Frontiers in Veterinar.....»»
Nature"s instructions: How fungi make a key medicinal molecule
For roughly a century, ever since Alexander Fleming's accidental discovery of penicillin in 1928, fungi have proven to be a goldmine for medicines. They've provided treatments for a wide range of diseases, from infections and high cholesterol to orga.....»»
Azo-menthol: New molecule can regulate ion channels using light
Located in the cell membrane, TRPM8 ion channels are known as receptors that recognize cold and respond to menthol, the cooling agent in peppermint. In addition, these channels influence pain perception and play a key role in numerous diseases. This.....»»
Ice is melting, seas are rising—how scientists are tracking the changes
Will the sea rise by 20 cm or 3 meters by 2100? This is obviously an interesting question to answer. Predicting the sea level in 75 years requires precise calculations and correct models of the melting of the ice from, e.g., Greenland. To do so, rese.....»»
Thin-film tech makes nuclear clocks a 1,000 times less radioactive and more affordable
In the quest for ultra-precise timekeeping, scientists have turned to nuclear clocks. Unlike optical atomic clocks—which rely on electronic transitions—nuclear clocks utilize the energy transitions in the atom's nucleus, which are less affected b.....»»
Study claims all observables in nature can be measured with a single constant: The second
A group of Brazilian researchers has presented an innovative proposal to resolve a decades-old debate among theoretical physicists: How many fundamental constants are needed to describe the observable universe? Here, the term "fundamental constants".....»»
Oxygen and chlorine evolution without noble metals: Electrode potential transforms MXene surfaces
MXenes are a class of two-dimensional materials that were discovered in 2011. Theoretical studies previously predicted that they would not be catalytically active in anodic processes. Researchers led by Prof. Dr. Kai S. Exner, head of the Department.....»»
Ferns" ability to evolve "backward" offers insights into the meandering path of evolution
Imagine a photograph of your great-grandparents, grandparents and parents side by side. You'd see a resemblance, but each generation would look distinct from its predecessors. This is the process of evolution in its simplest form: descent with modifi.....»»
Detecting the gravitational wave memory effect from core-collapse supernovae
Einstein's theory of gravity, general relativity, has passed all tests with predictions that are spot-on. One prediction that remains is "gravitational wave memory"—the prediction that a passing gravitational wave will permanently change the distan.....»»
The shifting security landscape: 2025 predictions and challenges
As the borderless threat ecosystem poses new challenges for companies and governments worldwide, CISA’s 2025-2026 International Plan aims to address this problem. CISA’s plan calls for integrated cyber defense across borders, addressing the c.....»»
Do the fastest-spinning pulsars contain quark matter?
Neutron stars are so named because in the simplest of models they are made of neutrons. They form when the core of a large star collapses, and the weight of gravity causes atoms to collapse. Electrons are squeezed together with protons so that the co.....»»
PlugStar’s platform matches your lifestyle with EVs and buying incentives
PlugStar has revamped its website to simplify the EV buying process, including giving tips on buying incentives......»»
2025 AirTag rumored to get remarkably longer range location tracking and precision
Rumors persist that Apple will roll out a new AirTag in 2025, bringing more precise tracking to the device with a new and longer-ranged Ultra Wideband chip.Next-generation Apple AirTags will look the same, but feature improved range and location trac.....»»
Protein"s "hopping" behavior uncovers new drug development avenues
Since 2006, Ruben Gonzalez's Columbia lab has used single-molecule light microscopy to study the structural dynamics of biomolecules......»»
NeoRuler and M-Cube review: Smarter, iPhone-connected precision measuring
Hozo Design has a pair of digital measuring devices in the NeoRuler and M-Cube, with both having the goal of making both micro and macro measurements more precise and easier to accomplish.NeoRuler review: The NeoRuler and M-CubeMeasurements are an ar.....»»
Bringing the power of tabletop precision lasers for quantum science to the chip scale
For experiments that require ultra-precise measurements and control over atoms—think two-photon atomic clocks, cold-atom interferometer sensors and quantum gates—lasers are the technology of choice, the more spectrally pure (emitting a single col.....»»