New density of memory: Image shows microscopic holes cut into the surface of glass with the 'nuclear-strength' laser. Researchers say that the technique could result in an amount of information comparable to that held by the U.S. Library of Congress written in a volume of just one cubic centimetre of material.

Credit: ANU

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SYDNEY: Hitting glass with the equivalent energy of a nuclear bomb – but in very short, controlled bursts – could vastly increase computer memory storage capacity, say Australian researchers.

High-powered lasers have been used for several years to bombard transparent materials, such as silicon and sapphire, to create microscopic holes or voids.

Short but intense

As well as their fundamental interest to physicists, the materials – which briefly suffer such extreme temperatures and pressures that tiny, super-hot plasmas form – could create optical memory devices like those used in CDs and DVDs, but with a much higher storage capacity, and in a smaller volume of material.

Now, a team of physicists from the Laser Physics Centre at the Australian National University, in Canberra, have taken the research a step further, by creating a crystalline shell of increased density around the voids, effectively increasingly the density of optical memory.

The researchers tightly focused a laser beam with microscopic lenses and hit a block of glass with very short pulses of light. This heated the glass at a billion billion (10¹⁸) degrees per second, but just for a hundred femtoseconds (1/10¹⁵ seconds).

"With ultra-short pulses you create a high speed of heating and cooling," said ANU physicist Andrei Rode, who presented the research at the Australian Institute of Physics Congress in Adelaide. "We can also focus the laser more tightly which increases the density of optical memory."

Tiny clouds of plasma

The laser bursts create a tiny cloud of plasma that sends shockwaves through the material, creating many layers of voids that are just 200 nanometres in size.

Blu-ray disks have pits 580 nanometres in size, but within just two layers on the surface of the disk. A block of glass could form a 3-D optical memory device with multiple layers.

"The density of memory we could write is something like the volume of information in the U.S. Library of Congress written in a volume of just one cubic centimetre of material," said Rode. Currently, however, the research is at an early stage and any commercial product is a long way off, he added.

The research also has applications in the manufacture of photonic crystals that can control the flow of light in different media.