Fujitsu pushes limits of data-storage technology

IDG News Service - TOKYO -- Researchers in Japan have reported success in an advanced data-storage technology that could help yield hard disk drives with seven times more capacity than today's most advanced drives in as soon as five years.
Their work is a refinement of perpendicular storage technology, a method of data storage that is only just beginning to come into commercial use in hard disk drives. Drive makers are switching to perpendicular storage because it allows much more data to be stored on a disk. This is because the magnetic particles on which data is stored stand perpendicular to the disk's surface and so more of them can be packed onto the disk than in the current longitudinal recording method in which they lay flat.
The new research further increases storage ability by organizing finer particles of magnetic material into a fixed, regular pattern, said Kenichi Itoh, director of science and senior research fellow at Fujitsu Laboratories Ltd.'s storage intelligent system laboratory. Itoh is working on the project with colleagues from Yamagata Fujitsu Ltd. and the Kanagawa Academy of Science and Technology and the work is supported by the Japan Science and Technology Agency.
Researchers start with a piece of glass, and a layer of aluminum is added to one side. This sheet is put through a process called anodization, which is one of the keys to the new technology, in which electricity flows through sulfuric acid from a negatively charged cathode to the glass-aluminum disk, which acts as the positively charged anode. The process, which takes about 90 seconds, results in numerous minute holes, called nanoholes, being formed in the aluminum. Each nanohole is about a thousandth the width of a human hair.
Typically, the nanoholes appear at random in the aluminium. However, Itoh's team has been able to get them to form in a uniform pattern by stamping the aluminum with a die before annodization. The result when viewed under an electron microscope looks similar to a honeycomb pattern.
Next the holes are filled to just over the top with cobalt, a magnetic material, and this is polished to give a smooth surface. Before the disc is finished, a protective layer is also added. The result is a disk covered with billions of tiny cobalt-filled holes, each of which can hold a magnetic charge, forming the basis of a high-density data storage disk.

"This discovery may open the way for 1Tbit per square inch in density in perpendicular recording media," Itoh said. Today's most advanced drives can store somewhere between

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