Posted on 05/23/2010 8:08:54 PM PDT by neverdem
Chemists in Japan have created the first material that can undergo a photoreversible transition from metal to semiconductor. The breakthrough heralds applications in ultra high density data storage, with 500 times the density of a Blu-ray disc.
The past decade has seen a growing interest in ways to switch the physical properties of matter. Temperature and pressure can both turn materials, say, from insulators to metals, or from non-magnetic to magnetic, but they are difficult to control in complex memory devices. As a result, researchers have been looking at photoinduced phase transitions, for which the key stimulus is laser light. Recently, laser light has been shown to switch certain materials from amorphous to crystalline, from neutral to charged, or from one colour to another.
New storage medium could store 500 times as much data as a standard Blu-ray disc
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Now, Shin-ichi Ohkoshi and colleagues from the University of Tokyo have produced what may be the most useful photo-induced transition. According to the researchers, the metal-to-semiconductor transition satisfies the three major requirements for optical data storage: it works around room temperature; the stimulating light is ultraviolet, which is essential for high memory density; and the light only needs to be of modest power to keep the memory maintained.
The researchers use a material based on nanocrystals of Ti3O5, which they create by sintering commercial TiO2 under hydrogen. The Ti3O5 nanocrystals are normally in an energy-minimum 'lambda' state, which is a metallic conductor. However, by irradiating the nanocrystals with ultraviolet light they hop into another energy minimum, the 'beta' state, in which charge becomes delocalised, as in a semiconductor. To put the nanocrystals back into the lambda state, they simply irradiate with ultraviolet light of a slightly shorter wavelength.
'What I find most interesting for potential applications is the fact that the obtained material is nanostructured - ie it intrinsically possesses a very high resolution and hence may be suitable for ultra high density data storage,' says Alex Kolobov, an expert in phase-change materials at Japan's National Institute of Advanced Industrial Science and Technology.
Indeed, Ohkoshi's group believe a memory system based on the nanocrystals would be able to accommodate data densities of 1 terabit/inch2, or 500 times that of a standard Blu-ray disc. They are now thinking about creating such a system using the 'near field' light from a scanning probe microscope.
S-I Ohkoshi et al, Nature Chem., 2010, DOI: 10.1038/nchem.670
Yet more space for computer games.
Just wow!
Guess I can put off buying that Bluray player, and skip right from DVD to Nano player.
And Brittany Spears’ songs!
Hoorah! </sarcasm>
How many terabytes of data can dance on the head of a pin?
Probably be pricey little devils at first, but what’s not to like with a lifetime’s worth of movies on one little disk?
Chemists in Japan have created the first material that can undergo a photoreversible transition from metal to semiconductor. The breakthrough heralds applications in ultra high density data storage, with 500 times the density of a Blu-ray disc.What a waste of tax dollars!!! :') Had to be first.
Optical storage? Wasn’t that what the HAL-9000 was supposed to be based on? Look how well that turned out... :-)
How long would that take to load?
Japan tech bump for later..........
Moore’s Law keeps pushing on.
**********************************EXCERPT***********************************************
The observation made in 1965 by Gordon Moore, co-founder of Intel, that the number of transistors per square inch on integrated circuits had doubled every year since the integrated circuit was invented. Moore predicted that this trend would continue for the foreseeable future.
I mean this is a totally new material....
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bflr
...or to back up?(!)
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