Chinese Scientists Develop World’s Strongest Resistive Magnet at 42.02 Tesla
Chinese scientists have achieved a groundbreaking milestone by developing the world’s strongest resistive magnet, generating a magnetic field of 42.02 Tesla, surpassing Earth’s magnetic field by 800,000 times. This innovation from the Chinese Academy of Sciences opens new avenues for research in physics and advanced materials, with potential applications in medicine and energy. Discover how this development could revolutionize our understanding of superconductors and enhance diagnostic technologies.
AI Designs Magnet Free of Rare-Earth Metals in Just 3 Months
Discover how AI was used to design a revolutionary magnet free of rare-earth metals in just 3 months, potentially easing the environmental impact of green technology. Learn how UK company Materials Nexus utilized AI to create MagNex, a permanent magnet that could help accelerate the transition to a greener future. Find out how this breakthrough could revolutionize materials science and industrial needs.
AI-Driven Collaboration Creates Rare-Earth-Free Magnet MagNex
Materials Nexus and the University of Sheffield have collaborated to create a groundbreaking new rare-earth-free magnet, MagNex, identified by artificial intelligence technology. This innovative material was developed through an AI-driven discovery and development process that was an impressive 200 times faster than traditional manual methods. The announcement of this advancement brings hope to a world increasingly reliant on powerful magnets, particularly in the shift towards electric mobility. Learn more about this revolutionary magnet and its potential impact on various industries.
Mysterious New Form of Magnetism Confirmed
Discover the confirmation of a new form of magnetism, altermagnetism, that sits between ferromagnetism and antiferromagnetism. This fundamental discovery could have significant implications for future electronics and is based on the characteristic of quantum objects called spin.
Colossal Magnetic Field Detected in Nuclear Matter
Researchers have observed the interaction between a state of matter known as a quark–gluon plasma (QGP) and a magnetic field 1000 times the strength of those on neutron stars. This observation is a step toward a better understanding of the strong nuclear force and puts limits on the possible value of the QGP’s electrical conductivity, informing models of the early Universe.
Groundbreaking Discovery in Condensed-Matter Physics
Groundbreaking discovery in condensed-matter physics reveals unconventional magnetic phase, altermagnetic, allowing for lifted Kramers spin degeneracy without net magnetization. Research has significant implications for magnetism and potential to drive advancements in magnetic-memory technology.
Urgent Recall Issued for Toy Sold in Missouri After Hospital Emergencies and Fatalities
An urgent recall has been issued for a toy sold in Missouri after a concerning number of hospital emergencies and fatalities. The United States Consumer Product and Safety Commission (USCPSC) has reported that over 2,400 individuals have been hospitalized, and…
Researchers Simulate Iron Snow to Shed Light on Planetary Magnetic Fields
Scientists have long believed in the occurrence of a phenomenon known as iron snow in the molten iron cores of certain planetary bodies. Similar to the formation of snow crystals in the upper atmosphere, iron snow is thought to occur…