A team of researchers at the University of Minnesota has unveiled a powerful new alloy, Ni4W, that could radically reshape how electronic devices store and process information. This metal can switch m ...

New alloy Ni₄W enables field-free magnetization, promising faster, energy-efficient memory tech for AI, electronics, and HPC systems.

Transformer magnetization characteristics can change from their original conditions with the aging of the transformer, and hence, the actual characteristics may deviate from the manufacturers' data.

Synthetic antiferromagnets are carefully engineered magnetic materials made up of alternating ferromagnetic layers with ...

Researchers at the University of Minnesota Twin Cities have made a promising breakthrough in memory technology by using a nickel-tungsten alloy called Ni₄W. This material shows powerful magnetic ...

Determination of normal magnetization curve is a well known problem, solved and described in many papers. But none of the normal magnetization curve measurements were performed applying current ...

Research from the University of Minnesota Twin Cities gives new insight into a material that could make computer memory faster and more energy-efficient.

Research from the University of Minnesota Twin Cities gives new insight into a material that could make computer memory ...

Researchers have developed a more efficient way to control magnetization in small electronic devices, potentially making ...