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Optical Fiber With a Silicon Core

Posted by timothy on from the now-that-ain't-in-leviticus dept.

Roland Piquepaille writes "According to the Optical Society of America, U.S. researchers have been able to create a practical optical fiber with a silicon core. As they were able to use the same commercial methods that are used to develop all-glass fibers, this might pave the way for future silicon fibers as viable alternatives to glass fibers. The scientists note that this should help increase efficiency and decrease power consumption in computers and other systems that integrate photonic and electronic devices. Here is a good summary by the lead researcher: 'In the past, we've needed one structure to process light and another to carry it. With a silicon fiber, for the first time, we have the ability to greatly enhance the functionality in one fiber.'"

7 of 60 comments (clear)

  1. Re:how is glass different than silicon? by amRadioHed · · Score: 4, Informative

    Actually, the underlined text in the summary is called a link. Click it and you will see what is called TFA. It actually explains some of the potential advantages of the silicon core.

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  2. Re:how is glass different than silicon? by Anonymous Coward · · Score: 5, Informative

    glass is silicon dioxide. Silicon is pure Si.

  3. Re:how is glass different than silicon? by kmac06 · · Score: 4, Informative

    So is silicon, at for infrared wavelengths.

  4. Re:how is glass different than silicon? by ISoldat53 · · Score: 5, Informative

    From TA. "Usually an optical fiber is made by starting with a glass core, wrapping it with a cladding made from a slightly different glass, and then heating the structure until it can be pulled out into long wires. This works well enough, but for some wavelengths of light, a core made of pure crystalline silicon, like the one developed by the Clemson team, would better carry signals. Additionally, crystalline silicon exhibits certain nonlinear properties (in which the output is not proportional to the input) that are many orders of magnitude larger than for conventional silica glass. This would, for example, allow for the amplification of a light signal or for the shifting of light from one wavelength to another. The development of a silicon fiber opens the way for signal processing functions that are currently done electronically or in separate optical circuits to be performed directly inside the fiber, which allows for more compact, efficient systems."

  5. Re:Optical + Silicon + The Internet is for...? by FinchWorld · · Score: 4, Funny
    There's a boob joke in here, somewhere.

    Its slashdot, theres a boob joke everywhere.

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  6. Re:Optical + Silicon + The Internet is for...? by Kaenneth · · Score: 4, Insightful

    You guys (Parent and Grandparent posters) are a couple of boobs.

  7. Re:How do they do it? by mapsjanhere · · Score: 4, Informative

    the wavers are actually sliced out of big single crystalline cylinders; making the cylinders bigger was what slowed the progress of waver growth. I don't think you can "draw" the crystal in a conventional sense, but since the material is extremely clean, it should recrystalize back into a single crystal out of the melt.

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