Live Breaking News & Updates on அணு மூலக்கூறு துகள் இயற்பியல்
Stay updated with breaking news from அணு மூலக்கூறு துகள் இயற்பியல். Get real-time updates on events, politics, business, and more. Visit us for reliable news and exclusive interviews.
E-Mail IMAGE: ORNL researchers used electron beam powder bed fusion to produce refractory metal molybdenum, which remained crack free and dense, proving its viability for additive manufacturing applications. view more Credit: ORNL/U.S. Dept. of Energy Manufacturing - Mighty Mo Oak Ridge National Laboratory scientists proved molybdenum titanium carbide, a refractory metal alloy that can withstand extreme temperature environments, can also be crack free and dense when produced with electron beam powder bed fusion. Their finding indicates the material s viability in additive manufacturing. Molybdenum, or Mo, as well as associated alloys, are difficult to process through traditional manufacturing because of their high melting temperature, reactivity with oxygen and brittleness. ....
Credit: Skoltech Scientists from Russia and Germany studied the molecular composition of carbonaceous chondrites - the insoluble organic matter of the Murchison and Allende meteorites - in an attempt to identify their origin. Ultra-high resolution mass spectrometry revealed a wide diversity of chemical compositions and unexpected similarities between meteorites from different groups. The research was published in the Scientific Reports. Carbonaceous chondrites contain nearly the entire spectrum of organic molecules encountered on Earth, including nucleic acids which might have played a pivotal role in the origin of life. Since the majority of modern meteorites are of nearly the same age as the Earth, their composition should be similar to that of meteorites that bombarded the Earth s surface in ancient times. Just like comets, they can be considered a source of organic compounds which most likely formed the core of the Earth s biosphere. ....
Physicists on the hunt for a rarely seen magnetic spin texture have discovered another object that bears its hallmarks, hidden in the structure of ultra-thin magnetic films, that they have called an incommensurate spin crystal. ....
E-Mail IMAGE: The physics of massive nuclei can be studied by measuring the note at which tidal resonance between merging neutron stars causes the solid crust of the neutron stars to shatter view more Credit: University of Bath Space scientists at the University of Bath in the UK have found a new way to probe the internal structure of neutron stars, giving nuclear physicists a novel tool for studying the structures that make up matter at an atomic level. Neutron stars are dead stars that have been compressed by gravity to the size of small cities. They contain the most extreme matter in the universe, meaning they are the densest objects in existence (for comparison, if Earth were compressed to the density of a neutron star, it would measure just a few hundred meters in diameter, and all humans would fit in a teaspoon). This makes neutron stars unique natural laboratories for nuclear physicists, whose understanding of the force that binds sub-atomi ....
E-Mail IMAGE: A model of the zigzag carbon nanobelt (with a magnification of 50 million) produced by a 3D printer at the Equipment Development Center, Institute for Molecular Science. view more Credit: NINS/IMS The current method of manufacturing carbon nanotubes in essence rolled up sheets of graphene is unable to allow complete control over their diameter, length and type. This problem has recently been solved for two of the three different types of nanotubes, but the third type, known as zigzag nanotubes, had remained out of reach. Researchers with Japan s National Institutes of Natural Sciences (NINS) have now figured out how to synthesize the zigzag variety. ....