Tb2(MoO4)3 functions as a multiferroic at 160 °C, addressing key limitations and opening new avenues for high-temperature ...

Multiferroic materials, which have the special ability to connect magnetism and electricity, are now one step closer to ...

While most multiferroics can't operate above room temperature, a team of researchers at Tohoku University demonstrated that ...

Researchers are breaking limits by increasing the temperature multiferroics can operate at, from room temperature up to a blistering 160 degrees Celsius.

Quantum researchers have long believed that strong spin interactions in qubits required covalent bonds, making large-scale ...

A French-German team, which includes researchers from the University of Freiburg, demonstrates how effective spin ...

A Franco-German research team, including members from the University of Freiburg, shows that supramolecular chemistry enables ...

Researchers were able to demonstrate for the first time that non-covalent bonds between spin centers are also capable of producing quartet states through spin mixing. Supramolecular chemistry is thus ...

Scientists have uncovered altermagnetism, a revolutionary third form of magnetism that bridges the strengths of ...

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

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 ...