Strained silicon carries light for cheaper commercial electronics

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The silicon waveguide at left contains a crystal symmetry and no electro-optic effect. At right the silicon waveguide has a straining layer that breaks the symmetry. The broken symmetry makes it possible to change the phase of light by applying an el ...
The silicon waveguide at left contains a crystal symmetry and no electro-optic effect. At right, the silicon waveguide has a straining layer that breaks the symmetry. The broken symmetry makes it possible to change the phase of light by applying an electric field across the waveguide, which can create an electro-optic modulator. Photo credit: Rune Jacobesen.
By physically compressing a silicon waveguide – and thus allowing variations in the way light travels through the material – scientists have discovered a key to creating a silicon electro-optic modulator. This method could greatly decrease the cost of modern computers.


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