Room Temperature Semiconductor of T-Rays

Fallen Andy noted a Physorg story that says "Engineers and applied physicists from Harvard University have demonstrated the first room-temperature electrically-pumped semiconductor source of coherent Terahertz (THz) radiation, also known as T-rays. The breakthrough in laser technology, based upon commercially available nanotechnology, has the potential to become a standard Terahertz source to support applications ranging from security screening to chemical sensing." "What did you do at the office today, honey?" "Oh, I just demonstrated the first room-temperature electrically-pumped semiconductor source of coherent Terahertz radiation. How was your day, dear?"

Article unit goof?

[Wilson_6500]

I was trying to decide if we should facetiously call this device a "taser" or "maser" when I realized that the article appears to give two different wavelength ranges for the device. The image caption seems to state that a 5-Thz wave corresponds to a 50 micrometer wavelength, whereas the article itself indicates that these lasers operate in the 3-30 nanometer wavelength range. Methinks someone used the angstrom symbol incorrectly, since 50 um * 5 Thz is about equal to the speed of light.

So, with that aside, we still have to decide if this thing is a maser or a taser!

What we REALLY need

[hyades1]

I know there are lots more applications for this, but what the health care system could really use right now is cheaper imaging technology. I'd love to see a similar breakthrough that reduced the cost of an MRI machine to about five grand.