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Engineers discover a new gatekeeper for light

Finding paves way for devices that switch quickly between transparency and opacity to specific forms of light

Date:
May 26, 2016
Source:
University at Buffalo
Summary:
Imagine a device that is selectively transparent to various wavelengths of light at one moment, and opaque to them the next, following a minute adjustment. Researchers report a discovery that brings us one step closer to this imagined future.
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Imagine a device that is selectively transparent to various wavelengths of light at one moment, and opaque to them the next, following a minute adjustment.

Such a gatekeeper would enable powerful and unique capabilities in a wide range of electronic, optical and other applications, including those that rely on transistors or other components that switch on and off.

In a May 20 paper in the journal Physical Review Letters, researchers in the University at Buffalo School of Engineering and Applied Sciences report a discovery that brings us one step closer to this imagined future.

The finding has to do with materials that are periodic, which means that they're made up of parts or units that repeat. Crystals fall into this category, as do certain parts of the wings of butterflies, whose periodic structure helps give them color by reflecting specific colors of light.

Scientists have known since the early 20th century that periodic materials have special qualities when it comes to light. Such materials can reflect light, as butterfly wings do, and if you understand the internal structure of a periodic material, you can use an equation called Bragg's law to determine which wavelengths will pass through the material, and which will be blocked due to reflection.

The new UB study shows that a completely periodic material structure is not needed for this kind of predictable reflection to take place.

Similar effects occur when you sandwich a non-periodic material between two boundary layers of material that have a periodic shape. This set-up will be transparent to certain wavelengths of light and opaque to others, and engineers can quickly alter which wavelengths are allowed through by simply moving one of the periodic boundaries.

Better yet, the effect not only applies to light waves, but rather to a broad range of wave phenomena that span the quantum to the continuum scale.

"We have shown that Bragg's law is a special case of a more generalized phenomenon that was discovered in this study and named as a Bloch wave resonance," said Victor A. Pogrebnyak, an adjunct associate professor of electrical engineering at UB. "This discovery opens up new opportunities in photonics, nanoelectronics, optics and acoustics and many other areas of science and technology that exploit band gap wave phenomena for practical use."

"Electrons behave as waves that can also exhibit a Bloch resonance, which can be used as a powerful method to control currents in nanoelectronic circuits," said Edward Furlani, Pogrebnyak's co-author and a UB professor in the Departments of Chemical and Biological Engineering and Electrical Engineering.

A key advantage that Bloch wave resonance offers: It enables the blocking of a larger range of wavelengths simultaneously than previously known effects described by Bragg's law.

Applications that could take advantage of this broader "band gap" range include white light lasers and a new type of fast-switching transistor.


Story Source:

Materials provided by University at Buffalo. Original written by Charlotte Hsu and Cory Nealon. Note: Content may be edited for style and length.


Journal Reference:

  1. Victor A. Pogrebnyak, Edward P. Furlani. Tunable Bloch Wave Resonances and Bloch Gaps in Uniform Materials with Reconfigurable Boundary Profiles. Physical Review Letters, 2016; 116 (20) DOI: 10.1103/PhysRevLett.116.206802

Cite This Page:

University at Buffalo. "Engineers discover a new gatekeeper for light." ScienceDaily. ScienceDaily, 26 May 2016. <www.sciencedaily.com/releases/2016/05/160526185430.htm>.
University at Buffalo. (2016, May 26). Engineers discover a new gatekeeper for light. ScienceDaily. Retrieved November 28, 2024 from www.sciencedaily.com/releases/2016/05/160526185430.htm
University at Buffalo. "Engineers discover a new gatekeeper for light." ScienceDaily. www.sciencedaily.com/releases/2016/05/160526185430.htm (accessed November 28, 2024).

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