It is now becoming increasingly clear that ferromagnetism, and thus spin polarization, can be controlled and manipulated through a coupling of a magnetic layer to a ferroelectric or a multiferroic.

Altermagnetism was first theorized in 2019 and experimentally confirmed in 2024 by researchers at Mainz University. It ...

Altermagnetism could transform electronics, offering faster, more efficient, and sustainable alternatives to traditional ...

Physicists have identified an unprecedented quantum phenomenon that allows precise manipulation of electron spin and ...

This research utilized a spin-wave model to analyze the magnetic behavior, providing insights into the fundamental mechanisms behind ferromagnetism in these materials[2]. Additionally, the ...

The study authors suggest that when it comes to altermagnetism, the magnetic moments of adjacent atoms are aligned in ...

Observing the effects of special relativity doesn't necessarily require objects moving at a significant fraction of the speed ...

Physicists discover a unique quantum behavior that offers a new way to manipulate electron-spin and magnetization to push ...

Every year, the high-profile academic journal "Science" names ten groundbreaking discoveries in a top list of scientific breakthroughs. For 2024, "Science" chose the drug lenacapavir and its potential ...

Our data-driven world demands more—more capacity, more efficiency, more computing power. To meet society's insatiable need ...

This unique design enables the realization of a one-dimensional ferromagnetic spin chain, which could have important applications in quantum electronics and quantum computing. The research was led ...

Krempaský] and colleagues. Specifically they were looking for the antiferromagnetic-like vanishing magnetization and ferromagnetic-like strong lifted Kramers spin degeneracy (LKSD) in manganese ...