A superlens would let you see a virus in a drop of blood and open the door to better and cheaper electronics. It might, says Durdu Guney, make ultra-high-resolution microscopes as commonplace as cameras in our cell phones.
To build a superlens, you need metamaterials: artificial materials with properties not seen in nature. Scientists are beginning to fabricate metamaterials in their quest to make real seemingly magical phenomena like invisibility cloaks, quantum levitation—and superlenses.
The secret lies in plasmons, charge oscillations near the surface of thin metal films that combine with special nanostructures. When excited by an electromagnetic field, they gather light waves from an object and refract it in a way not seen in nature called negative refraction. This lets the lens overcomes the diffraction limit. And, in the case of Guney’s model, it could allow us to see objects smaller than 1/1,000th the width of a human hair.
Other researchers have also been able to sidestep the diffraction limit, but not throughout the entire spectrum of visible light. Guney’s model showed how metamaterials might be “stretched” to refract light waves from the infrared all the way past visible light and into the ultraviolet spectrum.
Making these superlenses would be relatively inexpensive, which is why they might find their way into cell phones. But there would be other uses as well, says Guney.
Michigan Tech News
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