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Futuristic computing designs inside beetle scales

Though it began as a science fair project involving a shiny Brazilian beetle, Lauren Richey’s research may advance the pursuit of ultra-fast computers that manipulate light rather than electricity.

While still at Springville High School, Lauren approached Brigham Young University professor John Gardner about using his scanning electron microscope to look at the beetle known as Lamprocyphus augustus.

When Lauren and Professor Gardner examined the scales, they noticed something unusual for iridescent surfaces: They reflected the same shade of green at every angle. The reason? Each beetle scale contained a crystal with a honeycomb-like interior that had the same structural arrangement as carbon atoms in a diamond.

What that has to do with futuristic computers is a stretch, but here is how the two connect: Scientists have long dreamed of computer chips based on light rather than electricity. In “optical computing,” chips would need photonic crystals to channel light particles. That’s easier said than done when dealing with high frequencies such as visible light.

During her first year at BYU, Lauren co-authored a study describing the photonic properties of these beetle scales. In reaction, one photonics expert told Wired that “This could motivate another serious round of science.”

Potentially these beetle scales could serve as a mold or template to which semiconductor material, like titanium or silica, can be added. The original beetle material can then be removed with acid leaving an inverse structure of the beetle crystal, a now usable photonic crystal in the visible light regions. 

“By using nature as templates, you can create things that you cannot make synthetically,” Lauren said.

Now two years shy of a degree in physics, Lauren received funding from ORCA to examine the photonic crystal structures of two more species of iridescent beetles. With the help of a new ion beam microscope, she’s so far nailed down the structure of one (it’s a “face-centered cubic array of nanoscopic spheres”) and is still working on the other.

From BYU, Lauren hopes to launch into a Ph.D. program at either MIT or Cal-Berkeley and continue research in photonics.

ORCA grants: What they are and how to get one

Every year BYU awards several hundred undergraduates $1,500 for a research or creative project of their own choosing.

While the projects span a wide range of fields, they all involve mentored learning outside the classroom. The skills and experience gained along the way open doors to grad schools, employers and entrepreneurship. Mentored learning is part of why BYU ranks in the Top 10 nationally in terms of where new Ph.D.s received their undergraduate degrees – and why BYU is a top feeder school for law, medicine and dentistry.

ORCA is accepting applications through October 29. Click here to apply.


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To our fellow Physkateer
  10/18/2010 10:29 AM by Zephne

We are so tickled that your research is highlighted! We absolutely love gallivanting about the world of physics with you!


Porthos & Athos

  10/6/2010 9:48 AM by Joseph

I am sure that the next important technological revolution must be an organic one - figuring out how to store and communicate information through the forms of nature is exactly on par. Perhaps next we will learn how to store this information in the actual organic object rather than in a synthetic replica or reflection. I have heard some about the rich informational properties of fungus. This sounds science-fiction-y, but so did space travel at a moment. Beautiful!

  10/4/2010 9:20 PM by Jordan

Lauren, I got on the BYU website and saw your face in the famous-person-pop-up window. Crazy! That's way cool what you've done with your research. Keep up the good work!

  10/4/2010 12:35 PM by Marianne

I visit teach this girl! Absolutely amazing! Nature gives us all kinds of resources and lessons.

Close Encounters
  10/2/2010 10:04 AM by James

It's about time we learned something from close encounters of the 3rd kind. It's all about the lights...

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BYU physics major Lauren Richey with her research mentor John Gardner, a biology professor

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Eupholus schoenherri has scales with a diamond structure

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Anoplophora birmanica has scales with an opal structure

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Anoplophora mamaua also has scales with an opal structure
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