In Brief
  • Researchers discovered that using a new magnetization method can possibly make computers exponentially faster.
  • T-rays could be the key to the next evolution of traditional computing.

A New Wave

A development from researchers at Moscow Institute of Physics and Technology (MIPT) could soon boost computer speeds to up to 1000 times with a new magnetization technique that uses terahertz radiation (T-waves). Their work was published in Nature.

The study centers on how quickly the memory cells are reset for new information. Currently, this is done using an external magnetic field. With the increase of data processing, computing speeds have become limited.

The team proposes the use of terahertz radiation as a means of increasing speed. The pulse of electrons radiate at a trillion cycles per second, with wavelengths smaller than microwaves but longer than infrared.

They’re also useful in the safe and precise inspection of organic and mechanical material, which is why they are currently being looked at for use in airport body scanners. Other applications include peering into microchips to detect defects, as well as into fragile texts.

Credit: MIPT Press Office
Credit: MIPT Press Office

The researchers tested whether the T-rays would be applicable for improving the storage of memory cells. They used the T-rays to induce a magnetic field in the weak ferromagnet, thulium orthoferrite. They discovered that this magnetic field induced by the T-ray was ten times greater than those from a traditional external magnetic field.

Future of Computers

“We have demonstrated an entirely new way of controlling magnetization, which relies on short electromagnetic pulses at terahertz frequencies. This is an important step towards terahertz electronics. As far as we know, our study is the first to make use of this mechanism to trigger the oscillations of magnetic subsystems,” says Anatoly Zvezdin, co-author of the paper and head at the MIPT Laboratory of Physics of Magnetic Heterostructures and Spintronics for Energy-Saving Information Technologies. Zvezdin’s team has yet to test T-rays on actual computer chips, so it may be some time before we see them in our home PC.

It’s truly a digital age and computing capacity and technological advancement is a necessity and powerful advantage for many industries. Magnetic induction using T-rays could be the new foundation of faster and more efficient computer memory.