Off the Wire:
UD scientists report portable detection devices could be used in medicine, hazardous materials detection and rescue operations
NEWARK, DE.--Scientists from the University of Delaware have made a major breakthrough in terahertz nanotechnology, one that could have practical applications in medical imaging, hazardous materials detection and even rescue operations.
The research team has discovered a way to harness the power of the terahertz frequencies in a palm-sized device using a semiconductor nanostructure, according to James Kolodzey, UD professor of electrical and computer engineering.
Terahertz is the final frontier in the study of electromagnetic waves, Kolodzey said, and in the frequency spectrum it lies between microwaves and infrared light. It is 1,000 times higher in frequency than microwaves, which are used in cell phones and ovens, and 100 to 1,000 times lower than visible light.
This may revolutionize terahertz technology by making it accessible, Kolodzey said. The device is the size of a cell phone, perhaps with a side pack for cooling. It can be portable. Previous terahertz systems were definitely not portable.
Not much is known about the terahertz frequencies, Kolodzey said, and the groups research is both in basic science and in practical applications.
It is known that the frequencies are strongly absorbed by the atmosphere, which makes terahertz a poor medium for long distance communication through the air, which is how the microwave frequencies are used. However, terahertz is of great value at closer ranges.
For instance, Kolodzey said, it can be used to detect chemical compounds, such as pollutants.
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James Kolodzey and the team that made a major breakthrough in terahertz nanotechnology.
Also, it is sensitive to molecules and, to the researchers surprise, can pass through solid materials and so can be used in imaging and scanning. In that way, it is like X-rays except that it is not believed to be at all harmful to humans.
The ability to scan through solid materials is a unique and new terahertz operating principle that has not been explored, Kolodzey said. To date, the UD researchers have scanned a paper clip through a silicon wafer and have looked at the interior of an egg by scanning through the shell.
Kolodzey said he is excited about the potential uses for the new nanotechnology, particularly in the medical field where it could be used to scan for diseases, such as cancer, the cells of which have a vibrant terahertz signature.
With cancer, early diagnosis is important, Kolodzey said. This could help identify cancer very quickly using a hand-held device. If you catch it early, it gives doctors more of an edge. And, this really highlights the cancer.
It also could provide dentists a tool in addition to X-rays and has applications in the field by providing rescuers a device that could detect victims trapped under tons of rubble and emergency and environmental personnel a tool for stand-off detection of hazardous materials.
And, all this in a hand-held device, not a room-sized piece of machinery. Our goal is to make is usable and affordable, Kolodzey said.
The devices are based on a silicon germanium semiconductor, Kolodzey said, adding that UD is one of the primary centers for the study of this medium in the world.
The semiconductor is used to select energy bands that relate to terahertz and filters are added to control the frequency more precisely, at our will, not natures, Kolodzey said.
A waveguide is used to corral and distribute the signal in the manner of a laser pointer, except one with unique powers.
Kolodzey will give a presentation on the research groups findings during the 11th International Symposium on Nanostructures, to be held June 23-28, in St. Petersburg, Russia.
Also, he has been invited to speak at two events sponsored by the Institute of Electrical and Electronics Engineers (IEEE). The first, the fourth IEEE Topical Meeting on Silicon Monolithic Integrated Circuits in RF Systems, will be held April 9-11 in Grainau, Germany. The second, a workshop on optical technologies for medical applications, will be part of the IEEE International Microwave Symposium, to be held June 8-13 in Philadelphia.
The research is funded by the National Science Foundation, the Defense Advanced Research Projects Agency (DARPA) and the U.S. Air Force.
Contact: Neil Thomas, (302) 831-6408
April 11, 2003