French physicists claim breakthrough in ultra-fast data access on HDD
http://www.physorg.com/news162995052.html
Quote:
French physicists claim breakthrough in ultra-fast data access
May 31st, 2009
French physicists said on Sunday they had used ultra-fast lasers that could accelerate storage and retrieval of data on hard discs by up to 100,000 times, pointing the way to a new generation of IT wizardry.
The research builds on achievements that earned the 2007 Nobel physics prize for Albert Fert of France and Peter Gruenberg of Germany, who ushered in a revolution in miniaturised storage in the 1990s.
Fert and Gruenberg discovered that tiny changes in magnetic fields can yield a large electric output.
These differences in turn cause changes in the current in the readout head that scans a hard disk to spot the ones and zeroes in which data is stored.
That discovery opened the way to "spintronics", a form of electronics that uses not only electrical charge but also the spin of electrons in individual atoms to provide a more compact, denser storage on hard drives.
But reading and writing data through spintronics has been hampered by the relative slowness of magnetic sensors.
In a study published in the specialist journal Nature Physics, a team led by Jean-Yves Bigot of the Institute of Materials Physics and Chemistry in Strasbourg employed a "femtosecond" laser, using ultra-fast bursts of laser light, to alter electron spin and thus speed up retrieval and storage.
"Our method is called the photonics of spin, because it is photons [particles of light] that modify the state of the electrons' magnetisation" on the storage surface, Bigot told AFP.
Data is retrieved with a burst that lasts just a millionth of a billionth of a second, said Bigot.
Femtosecond lasers currently measure around 30 centimetres (12 inches) by 10 centimetres (four inches) which means they are too big for consumer electronics, he cautioned.
Bigot added, though, that their miniaturisation is likely to be achieved over the next decade.
IBM, Hitachi and other corporations are "extremely interested" by the research, Bigot said.
(c) 2009 AFP
French physicists claim breakthrough in ultra-fast data access
May 31st, 2009
French physicists said on Sunday they had used ultra-fast lasers that could accelerate storage and retrieval of data on hard discs by up to 100,000 times, pointing the way to a new generation of IT wizardry.
The research builds on achievements that earned the 2007 Nobel physics prize for Albert Fert of France and Peter Gruenberg of Germany, who ushered in a revolution in miniaturised storage in the 1990s.
Fert and Gruenberg discovered that tiny changes in magnetic fields can yield a large electric output.
These differences in turn cause changes in the current in the readout head that scans a hard disk to spot the ones and zeroes in which data is stored.
That discovery opened the way to "spintronics", a form of electronics that uses not only electrical charge but also the spin of electrons in individual atoms to provide a more compact, denser storage on hard drives.
But reading and writing data through spintronics has been hampered by the relative slowness of magnetic sensors.
In a study published in the specialist journal Nature Physics, a team led by Jean-Yves Bigot of the Institute of Materials Physics and Chemistry in Strasbourg employed a "femtosecond" laser, using ultra-fast bursts of laser light, to alter electron spin and thus speed up retrieval and storage.
"Our method is called the photonics of spin, because it is photons [particles of light] that modify the state of the electrons' magnetisation" on the storage surface, Bigot told AFP.
Data is retrieved with a burst that lasts just a millionth of a billionth of a second, said Bigot.
Femtosecond lasers currently measure around 30 centimetres (12 inches) by 10 centimetres (four inches) which means they are too big for consumer electronics, he cautioned.
Bigot added, though, that their miniaturisation is likely to be achieved over the next decade.
IBM, Hitachi and other corporations are "extremely interested" by the research, Bigot said.
(c) 2009 AFP
Comments
http://www.physorg.com/news162995052.html
French physicists claim breakthrough in ultra-fast data access
May 31st, 2009
French physicists said on Sunday they had used ultra-fast lasers that could accelerate storage and retrieval of data on hard discs by up to 100,000 times, pointing the way to a new generation of IT wizardry.
The research builds on achievements that earned the 2007 Nobel physics prize for Albert Fert of France and Peter Gruenberg of Germany, who ushered in a revolution in miniaturised storage in the 1990s.
Fert and Gruenberg discovered that tiny changes in magnetic fields can yield a large electric output.
These differences in turn cause changes in the current in the readout head that scans a hard disk to spot the ones and zeroes in which data is stored.
That discovery opened the way to "spintronics", a form of electronics that uses not only electrical charge but also the spin of electrons in individual atoms to provide a more compact, denser storage on hard drives.
But reading and writing data through spintronics has been hampered by the relative slowness of magnetic sensors.
In a study published in the specialist journal Nature Physics, a team led by Jean-Yves Bigot of the Institute of Materials Physics and Chemistry in Strasbourg employed a "femtosecond" laser, using ultra-fast bursts of laser light, to alter electron spin and thus speed up retrieval and storage.
"Our method is called the photonics of spin, because it is photons [particles of light] that modify the state of the electrons' magnetisation" on the storage surface, Bigot told AFP.
Data is retrieved with a burst that lasts just a millionth of a billionth of a second, said Bigot.
Femtosecond lasers currently measure around 30 centimetres (12 inches) by 10 centimetres (four inches) which means they are too big for consumer electronics, he cautioned.
Bigot added, though, that their miniaturisation is likely to be achieved over the next decade.
IBM, Hitachi and other corporations are "extremely interested" by the research, Bigot said.
(c) 2009 AFP
Ultra-fast lasers? Light travels at the same speed, regardless of the source. Sounds like a hyped press release to gain financial backers more than anything.
Ultra-fast lasers? Light travels at the same speed, regardless of the source. Sounds like a hyped press release to gain financial backers more than anything.
I think the "ultra-fast" part refers to the femtosecond pulse speed of the lasers.
I think the "ultra-fast" part refers to the femtosecond pulse speed of the lasers.
Nothing to see here. The laser may be ultra-fast, but it is the size of a breadbox. I'm willing to bet that the support components take-up every square centimeter on a optical table.