Thursday, April 11, 2013

Data storage: Shingled tracks stack up

Apr. 10, 2013 ? Simply changing the pattern by which data is recorded may lead to increased hard drive capacities.

Modern hard drive technology is reaching its limits. Engineers have increased data-storage capacities by reducing the widths of the narrow tracks of magnetic material that record data inside a hard drive. Narrowing these tracks has required a concordant reduction in the size of the magnetic write head -- the device used to create them. However, it is physically difficult to reduce the size of write heads any further. Kim Keng Teo and co-workers at the A*STAR Data Storage Institute, Singapore, and the Niigata Institute of Technology, Japan, have recently performed an analysis that highlights the promise of an alternative approach, which may sidestep this problem completely.

In a conventional hard drive, a write head stores data by applying a magnetic field to a series of parallel, non-overlapping tracks. Halving the width of the track effectively doubles the data-storage capacity, but also requires the size of the write head to be halved. The head therefore produces less magnetic field than is needed to enable stable data storage. This is because the small magnetic grains that are characteristic of modern hard drive media need to be thermally stable at room temperature.

Shingled magnetic recording represents a step towards solving this problem as it allows for narrower track widths without smaller write heads. Rather than writing to non-overlapping tracks, the approach overlaps tracks just as shingles on a roof overlap (see image). Tracks are written in a so-called 'raster' pattern, with new data written to one side only of the last-written track.

Teo and co-workers analyzed the scaling behavior of this approach by using both numerical analysis and experimental verification. Their results showed that the size of the data track is not limited by the size of the write head, as in conventional hard drives. Instead, the track size is limited by the size of the magnetic read head, and by the 'erase bandwidth', which represents the portion of the track edge that is affected by adjacent tracks.

"This is a paradigm shift for the industry," says Teo. "A relatively small difference in the way that writing occurs calls for a completely new approach to head design." Teo expects the shingled approach to be a useful stop-gap measure prior to the arrival of more advanced, next-generation technologies in the next decade or so that will apply more radical modifications to the hard drive such as the use of heat to assist the write head.

The A*STAR-affiliated researchers contributing to this research are from the Data Storage Institute.

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The above story is reprinted from materials provided by The Agency for Science, Technology and Research (A*STAR).

Note: Materials may be edited for content and length. For further information, please contact the source cited above.


Journal Reference:

  1. Kim Keng Teo, Moulay Rachid Elidrissi, Kheong Sann Chan, Yasushi Kanai. Analysis and design of shingled magnetic recording systems. Journal of Applied Physics, 2012; 111 (7): 07B716 DOI: 10.1063/1.3679383

Note: If no author is given, the source is cited instead.

Disclaimer: Views expressed in this article do not necessarily reflect those of ScienceDaily or its staff.

Source: http://feeds.sciencedaily.com/~r/sciencedaily/top_news/top_technology/~3/k5ruVCxXZOM/130410114113.htm

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Wednesday, April 10, 2013

The Great Gatsby Trailer: Watch Now!

Source: http://www.thehollywoodgossip.com/2013/04/the-great-gatsby-trailer-watch-now/

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Nanotechnology: Color printing reaches new highs

Apr. 10, 2013 ? Color printing at the highest resolution possible is enabled by the use of arrays of metal-coated nanostructures.

Commercial laser printers typically produce pin-sharp images with spots of ink about 20 micrometers apart, resulting in a resolution of 1,200 dots per inch (dpi). By shrinking the separation to just 250 nanometers -- roughly 100 times smaller -- a research team at A*STAR can now print images at an incredible 100,000 dpi, the highest possible resolution for a color image1. These images could be used as minuscule anti-counterfeit tags or to encode high-density data.

To print the image, the team coated a silicon wafer with insulating hydrogen silsesquioxane and then removed part of that layer to leave behind a series of upright posts of about 95 nanometers high. They capped these nanoposts with layers of chromium, silver and gold (1, 15 and 5 nanometers thick, respectively), and also coated the wafer with metal to act as a backreflector.

Each color pixel in the image contained four posts at most, arranged in a square. The researchers were able to produce a rainbow of colors simply by varying the spacing and diameter of the posts to between 50 nanometers and 140 nanometers.

When light hits the thin metal layer that caps the posts, it sends ripples -- known as plasmons -- running through the electrons in the metal. The size of the post determines which wavelengths of light are absorbed, and which are reflected (see image).

The plasmons in the metal caps also cause electrons in the backreflector to oscillate. "This coupling channels energy from the disks into the backreflector plane, thus creating strong absorption that results in certain colors being subtracted from the visible spectrum," says Joel Yang, who led the team of researchers at the A*STAR Institute of Materials Research and Engineering and the A*STAR Institute of High Performance Computing.

Printing images in this way makes them potentially more durable than those created with conventional dyes. In addition, color images cannot be any more detailed: two adjacent dots blur into one if they are closer than half the wavelength of the light reflecting from them. Since the wavelength of visible light ranges about 380-780 nanometers, the nanoposts are as close as is physically possible to produce a reasonable range of colors.

Although the process takes several hours, Yang suggests that a template for the nanoposts could rapidly stamp many copies of the image. "We are also exploring novel methods to control the polarization of light with these nanostructures and approaches to improve the color purity of the pixels," he adds.

The A*STAR-affiliated researchers contributing to this research are from the A*STAR Institute of Materials Research and Engineering and the A*STAR Institute of High Performance Computing

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Story Source:

The above story is reprinted from materials provided by The Agency for Science, Technology and Research (A*STAR).

Note: Materials may be edited for content and length. For further information, please contact the source cited above.


Journal Reference:

  1. Karthik Kumar, Huigao Duan, Ravi S. Hegde, Samuel C. W. Koh, Jennifer N. Wei, Joel K. W. Yang. Printing colour at the optical diffraction limit. Nature Nanotechnology, 2012; 7 (9): 557 DOI: 10.1038/nnano.2012.128

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Disclaimer: Views expressed in this article do not necessarily reflect those of ScienceDaily or its staff.

Source: http://feeds.sciencedaily.com/~r/sciencedaily/~3/YPbsdckj_kM/130410114115.htm

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Tuesday, April 9, 2013

Video: PFT: RGIII makes Redskins elite organization

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Source: http://nbcsports.msnbc.com/id/21134540/vp/51472982#51472982

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Florida couple spotted in Cuba with abducted children? - U.S. News

Desmond Boylan / Reuters

Joshua Hakken and his wife Sharyn stand inside a building with their two children at the Marina Hemingway complex in Havana on Tuesday.

By Matthew DeLuca, Staff Writer, NBC News

A couple accused of abducting their two young sons from their grandmother in Florida sailed with them to Cuba, which announced Tuesday that it will return the family to the United States.

Cuban authorities confirmed that?Joshua Hakken, 35, and Sharyn Hakken, 34, arrived in the island nation in their sailboat the Salty Paw on Sunday. They notified the U.S. the next day and decided on Tuesday morning to turn over the couple and the kids, a government statement said.

Security agents escorted the family from the marina later in the day, but it was not clear when the handover would take place.

The boys, 2 and 4, had been living with their grandmother in Tampa after their parents lost custody of them.?Police say Joshua Hakken entered the grandmother's house in the early morning of April 3, tied her up and took the children.?

After evading Amber alerts in Florida and Tennessee and Coast Guard boats searching the Gulf of Mexico, the Hakkens made their way to Cuba in the 25-foot blue-and-white sailboat, arriving in bad weather, authorities said.

Even though the U.S. does not have formal relations with Cuba, Havana officials communicated with the U.S. Interests Section and the State Department "to try to guarantee the integrity and well-being of those minors," the statement said.

The boys had been placed in foster care after Joshua Hakken was arrested in a Louisiana hotel room in 2012 on charges including drug possession, according to police in Slidell, La. Sharyn and Joshua Hakken told officers that they planned to ?take a journey to the Armageddon? at the time of the arrest, Slidell police said.

The children were there when the parents were arrested, police said, and several weapons were taken from the room

Terri Durdaller, a spokeswoman at the Florida Department of Children and Families, told the Associated Press it's not clear where the children will be placed when they return to American soil.

"Louisiana is the ultimate decision maker on where these children will reside. It's likely they will be placed back in Florida with the grandmother," she said.

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Desmond Boylan / Reuters

"Salty," a boat believed to belong to Joshua and Sharyn Hakken, sits at the Marina Hemingway complex in Havana, Cuba, on Tuesday.

NBC News' Craig Giammona contributed to this report.

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Source: http://usnews.nbcnews.com/_news/2013/04/09/17670436-florida-couple-spotted-in-cuba-with-abducted-children

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Blackmagic's Production Camera 4K gets full size cinema sensor, $3,995 pricetag

Image

No matter how hard companies try and keep secrets, when it comes to trade show floors there's always the risk that someone will snap a picture and steal their thunder. The latest casualty is Blackmagic, which will be announcing both a Pocket Cinema Camera and this, its Production Camera 4K. We're fairly sure that this will sit above its Cinema Camera, offering a bigger Super 35 sensor, global shutter and Thunderbolt connector alongside the SSD recorder, touchscreen LCD and EF lens mount we found on last year's model. When the company gets around to announcing the hardware properly, it'll be available for $3,995 -- low enough to make even the most ardent of DSLR fans think twice.

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Source: http://feeds.engadget.com/~r/weblogsinc/engadget/~3/9WySBq1eMTA/

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