Scientists have found an elusive third form of magnetism that could help solve a longstanding puzzle about superconductors.

Topological insulators (TIs) are among the hottest topics in condensed matter physics today. They’re a bit strange: their surfaces conduct electricity, yet their interiors do not, instead acting as ...

Using a Kagome superconductor (RbV 3 Sb 5), they have achieved time-reversal symmetry (TRS) breaking at 175 Kelvin (-144.67 ...

Magnetism plays a crucial role in enabling various applications, ranging from memory storage devices to advanced medical imaging, energy-efficient electric motors, magnetic sensors, and emerging ...

Using muon spin rotation at the Swiss Muon Source SmS, researchers at the Paul Scherrer Institute (PSI) have discovered that a quantum phenomenon known as time-reversal symmetry breaking occurs at ...

Altermagnetism: Scientists from the University of Nottingham ’s School of Physics and Astronomy have introduced a new type of ...

With the presumed symmetry of charge and parity disproved, rigorous tests have been made of nature's indifference to which way time flows. No proof to the contrary has yet appeared but the hunt ...

"Altermagnets have the speed and resilience of an antiferromagnet, but they also have this important property of ferromagnets called time reversal symmetry breaking," Dal Din said. This mind ...

Non-magnetic topological insulators famously obey a rule called time-reversal symmetry (TRS), where the laws of physics operate the same way backward in time as they do forward. To illustrate this ...