The potential of quantum technology is huge but is today largely limited to the extremely…
Browsing: Magnetism
Magnetism is a physical phenomenon produced by the motion of electric charge, resulting in attractive and repulsive forces between objects. The most familiar effects occur in ferromagnetic materials, which are strongly attracted by magnets and can be magnetized themselves, commonly iron, nickel, and cobalt. Magnetism arises fundamentally from two sources: the electric currents generated by the movement of electrons in atoms, and the spin properties of these electrons. The field of magnetism encompasses a range of magnetic behaviors, including paramagnetism, diamagnetism, and antiferromagnetism, each depending on how the material’s electrons interact. This property is not only crucial in everyday applications, such as electric motors, transformers, and storage media like hard drives but also forms the basis of various medical technologies, including MRI scanners. Magnetic phenomena are also essential in scientific research, providing key insights into the structure of matter at the atomic and molecular levels.
For the first time, teams from Germany and Japan have successfully identified collective topological spin…
Altermagnets offer a blend of fast dynamics and high spin polarization, with groundbreaking research showcasing…
Researchers at Mainz University have been able to visualize the third class of magnetism, called…
Experiments at the Swiss Light Source SLS prove the existence of a new type of…
A research group examines the interplay between dust and large rocks, uncovering potentially anomalous stones.…
The “spin-nematic phase,” a magnetic analog of liquid crystal, has been observed for the first…
Magnetism is influenced by the behavior of electrons. For instance, these tiny particles can create…
X-rays reveal the synchronized jiggling of lattice and atomic spins. Scientists have uncovered the interaction…
Scientists from the Technical University of Denmark (DTU) have confirmed the underlying physics of a…
A research team has revealed that ultrashort laser pulses can magnetize iron alloys, a discovery…
A new laser heating technique by a Japanese research team paves the way for advanced…
ETH Zurich researchers discovered a novel form of ferromagnetism in a moiré material, driven by…
Rice University Study Leverages Chiral Phonons for Transformative Quantum Effect Quantum materials hold the key…
A new theoretical approach allows the alteration of α-RuCl3’s magnetic properties through quantum fluctuations in…
Researchers have unveiled the spinaron effect, challenging traditional beliefs about magnetic interactions in quantum materials…
MIT Researchers Show How Topology Can Help Create Magnetism at Higher Temperatures Researchers who have…
Researchers from the Max Born Institute in Berlin have successfully performed X-ray Magnetic Circular Dichroism…