Might the universe’s most extreme black holes owe their existence to magnetism? In 2023, gravitational wave detectors LIGO, ...

The simulations revealed that stronger magnetic fields create lighter, slower spinning black holes, while weaker fields allow heavier, faster spinning ones. This relationship suggests black holes ...

In 2023, astronomers observed a black hole collision that defied established theories. Two enormous black holes spun into ...

Discover the groundbreaking concept of altermagnetism, a new magnetic order bridging ferromagnetism and antiferromagnetism ...

Small in-plane magnetic fields switch skyrmion chirality and improve lattice order in a two-dimensional magnet, pointing to ...

A collaborative European research team led by physicists from Slovak Academy of Sciences has theorized a new approach to ...

A comprehensive set of simulations by Flatiron Institute astrophysicists and their colleagues revealed that magnetic fields are responsible for creating black holes with masses in a range previously ...

The engineering of optically synthesized magnetic fields allows neutral atoms to emulate charged behavior, paving the way for ...

The new big thing in magnetics is altermagnetism, a form of magnetism that promises to power the next generation of ...

A layered form of graphene shows a rare semimetal state with balanced electrons and holes that becomes a topological ...

The development of India’s first indigenous Quantum Diamond Microscope by IIT Bombay’s P-Quest group marks a significant milestone in the country’s quantum-technology journey.