This finding could open a breadth of new quantum device platforms for harnessing emergent topological states for novel chiral nano-spintronics and fault-tolerant quantum computing. Entitled ...

Researchers have discovered an innovative way to manipulate electronic properties in a magnetic Weyl semimetal using hydrogen ...

This effect has garnered significant attention in recent years due to its potential applications in spintronics, quantum computing, and other advanced technologies. Chiral molecules, which are non ...

Spintronics is the use of a fundamental property ... Long-distance propagation of a chiral magnonic edge state, through nanochannels and at room temperature, has been observed in engineered ...

Spintronics is an area of study in which researchers manipulate the intrinsic angular momentum (spin) of electrons, for example, by applying light. "Spintronics had traditionally dealt with ...

"Spintronics" is a new field of electronics, in which both the electric nature (charge) and magnetic nature (spin) of electrons are utilized to create novel electronic devices. The magnetoresistance ...

To meet society's insatiable need for electronic speed, physicists have been pushing the burgeoning field of spintronics. Traditional electronics use the charge of electrons to encode, store and ...

Chiral Au nanorod and its helicity map that shows which regions are right-handed helical (red) and left-handed helical (blue), as indicated by the helices. (Image: CICBiomaGUNE Chiral templates, such ...

This finding could open a breadth of new quantum device platforms for harnessing emergent topological states for novel chiral nano-spintronics and fault-tolerant quantum computing. Entitled ...