Most of us are familiar with those ultraviolet bug zappers. They're not as popular as they once were but I do still see (and hear) them around on hot summer nights here in New England.
They operate on a basic principal - bugs (mosquitos, etc) are attracted to light in the ultraviolet and visible blue/green wavelengths. Once the bugs get inside they get electrocuted by making contact with high voltage wires surrounding the light source. Most of us have probably questioned the effectiveness, wondering if more bugs are being attracted than zapped.
A group of researchers at the University of Southern California Dornsife led by Professor Travis Longcore came up with the great idea of flipping things around. In a paper published by The Royal Society last week titled Tuning the white light spectrum of light emitting diode lamps to reduce attraction of nocturnal arthropods Longore and his group describe how to make LED bulbs that significantly reduce the amount of blue/green light and effectively repel insects.
By mixing the right wavelengths, light can be made to still look white to humans while minimizing those attracting blue/green wavelengths, Longcore's group found that by doing this, approximately 20 percent fewer insects were attracted. Pretty cool stuff.
Longcore's group is doing additional testing and Longore is hoping they can further target specific wavelengths to repel even more of those pesky (and sometimes disease carrying) bugs away.
Friday, March 27, 2015
LED Light Bulbs That Repel Bugs
Posted by Gordon F Snyder Jr at 9:15 AM 1 comments
Labels: Education, Engineering, environment, fun, light, Photonics, Science, technician, Technology
Tuesday, March 24, 2015
Pushing Optics Closer to the CPU
There's something very important I forgot to tell you! Don't cross the streams… It would be bad… Try to imagine all life as you know it stopping instantaneously and every molecule in your body exploding at the speed of light.
—Egon Spengler (Harold Ramis) on crossing proton streams, Ghostbusters
Well.... as we learned later in the movie, crossing streams is not always a bad thing.... As part of my work with the National Center for Optics and Photonics Education (OP-TEC: www.op-tec.org) I've been spending a lot of time learning new technical content while still staying current in the computing and communications field. I've been reading (and tweeting) recently about pushing optics closer and closer to the processor in computing systems. Here's more.
Last week, IBM announced the integration of a silicon photonic chip on the same package as a CPU. Why is this important? A couple of reasons - if on-chip and chip-to-chip communications can use silicon as an optical medium, processing will be significantly faster, consume much less power and produce much less heat than the copper wires used today.
Extreme Tech published a nice diagram (below and based on the IBM announcement) last week showing the current state of silicon photonics technology. Notice the optical connection is currently at the board edge. With this IBM breakthrough, designers will begin to start moving the silicon photonics array closer and closer to the CPU, eventually building the optics into the CPU package itself.
The technology will initially be limited to the world of supercomputing but it will only be a matter of time before we see it trickle down to consumer level devices like PC's, tablets and smartphones.
I love it when streams converge.
Posted by Gordon F Snyder Jr at 8:56 AM 0 comments
Labels: computing, Education, Engineering, ghostbusters, High, optics, Performance, Photonics, Technology
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