Technology 3 min read

Skyrmions Could be Key to Global Data Storage Shortage

Skyrmions are one science's most elusive quasiparticles. But now, new research may shed light on the magnetic particle. | Image By SPbPhoto | Shutterstock

Skyrmions are one science's most elusive quasiparticles. But now, new research may shed light on the magnetic particle. | Image By SPbPhoto | Shutterstock

 A team of American researchers has created the smallest ever group of “skyrmions”, magnetic nanostructures that will push memory density to its limits.

To write and read information, conventional computers use memories that are based on magnetic materials.

Although reaching its limits, the decades-old technology of magnetic memory is not dead yet.

Physicists and computer scientists have been working for ways to further increase the storage density of magnetic memories to make tiny and energy-efficient electronic components.

One of the most explored paths in this regard is what’s called “magnetic vortices”, aka skyrmions.

Magnetic Skyrmions, Ultimate Frontier of Memory Miniaturization

Skyrmions” are nanoscale structures that form in magnetic materials, taking the shape of a vortex, hence the name “magnetic vortex”.

Besides ferromagnetic materials, skyrmions also tend to appear in other materials and exotic states of matter like Bose-Einstein Condensates.

Skyrmions are considered as “quasiparticles” because they only exist within a magnetic state.

Formed by the whirling spins of magnetic atoms, these moving 2D bubbles can store information bits with high density while consuming a fraction of the energy compared to current hard disks.

Read More: Single-Atom Data Storage now one Step Closer

Skyrmions hold the potential to provide the framework for future magnetic data storage technology.

British physicist Tony Skyrme proposed the concept of skyrmions in the 1960s, but it was only experimentally proved about a decade ago.

In 2009, a team of German researchers detected skyrmions for the first time.

Since then, solid-state physicists intensified research around the skyrmion phenomena, attempting to achieve the ability to generate and control magnetic vortices.

Researchers have managed to get to the sub-100 nanometer scale and create skyrmions 50 nanometers wide and larger.

Shrinking Skyrmions Beyond Limit

Now, a team of physicists led by researchers from the University of Nebraska–Lincoln have miniaturized skyrmions even more and created one that’s a few nanometers wide.

At 13 nanometers in diameter, this incredibly tiny skyrmion is the same width of five human DNA strands stacked together (DNA is 2.5 nanometers thick).

This scale, which “seems to be the smallest possible size in the material”, paves the way toward next-gen magnetic memory.

“One of the biggest limitations [of skyrmions] has been the diameter of these things. This discovery is an important step toward exploiting them for real-world applications,” said Nebraska’s David Sellmyer, co-leader of the study.

As to why we need skyrmion-based digital memory, Sellmyer added:

“Places all over the country are building these cloud-storage sites. The amount of information that’s getting stored – and the power consumed by these data centers – is getting so high that you practically have to imagine a power plant next to them. So we need faster and much lower-energy data storage.”

However, there’s a catch.

This 13 nm skyrmion they created begins to lose some of its properties as temperatures get higher than -382 degrees Fahrenheit.

Such an extremely low threshold will prevent skyrmions from going into the industrial-scale.

The team now has to tackle the tough challenge of creating skyrmions in this nano range but at room temperature either by reworking their fabrication process and/or exploring other magnetic nanoparticles.

Read More: Ultrathin Magnetic Materials Pave the way for new Memory Storage

What other magnetic nanomaterials could revolutionize data storage technology?

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Zayan Guedim

Trilingual poet, investigative journalist, and novelist. Zed loves tackling the big existential questions and all-things quantum.

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