Scientists found a way to control magnetism in ultra-thin materials using CrPS₄, opening the door to more compact and ...

"Transitional millisecond pulsars are cosmic laboratories that help us understand how neutron stars evolve in binary systems." ...

Researchers have found the first new type of magnet in nearly a century. Now, these strange "altermagnets" could help us ...

The degradation of magnetization in next-generation memory devices can be reversed using a novel processing technique ...

Modern low-power solutions to computer memory rely heavily on the manipulation of the magnetic properties of materials.

Scientists from TU Delft (The Netherlands) have observed quantum spin currents in graphene for the first time without using magnetic fields. These currents are vital for spintronics, a faster and ...

Researchers discover magnetic properties in ultra-thin RuO2, offering new possibilities for energy-efficient technologies and quantum computing applications.

Researchers at Massachusetts Institute of Technology have demonstrated an entirely new form of magnetism in a synthesized crystalline material. They're calling it p-wave magnetism.

Traditional spintronics usually consist of a non-magnetic layer sandwiched between two ferromagnetic materials, like in Magnetoresistive Random Access Memory (MRAM).

Researchers from CIC nanoGUNE, in collaboration with international partners, have achieved the first seamless 2D spintronics device made entirely from proximitized structures. They report a two ...

Atomic-scale 2D magnets can be polarized to represent binary states — the 1s and 0s of computing data. These can lead to far more dense and energy-efficient components.

Research into magnetic proximity effects for spintronics initially focused on modulating the intricate spin configuration within materials like CrI 3. Graphene/CrI 3 bilayers and tunnel junctions have ...