Since the terrorist attacks in New York City on September 11, 2001 detecting and preventing terrorist attacks on U.S. soil has become one of our nation’s highest priorities. One of the terrorist threats that the government is fearful of in large cities is a dirty bomb or other radioactive weapon.

Researchers at the Purdue University have developed a system that detects radiation in an attempt to thwart impending attacks using radioactive materials. The system uses commercially available solid-state sensors that are small enough to be integrated into mobile phones, notebook computers, and PDA’s.

Ephraim Fischbach and Jere Jenkins, the two Purdue researchers developing the system, say that these sensors could be the ideal way to detect and prevent terrorist acts using radioactive materials. Fischbach said in a statement, “It's the ubiquitous nature of cell phones and other portable electronic devices that give this system its power. It's meant to be small, cheap and eventually built into laptops, personal digital assistants and cell phones."

The researchers tested the system in November and were able to demonstrate that the solid-state sensors were able to detect a weak radiation source from 15 feet away. Jenkins said, “We set up a test source on campus, and people randomly walked around carrying these detectors. The test was extremely safe because we used a very weak, sealed radiation source, and we went through all of the necessary approval processes required for radiological safety. This was a source much weaker than you would see with a radiological dirty bomb."

The effectiveness of this type of detection system is compounded by the fact that one device alone isn’t responsible for locating the radioactive substance. Rather one device would detect the radioactivity and as the source of the radiation moved away from the device it would be picked up by additional devices allowing authorities to know in which direction the radioactive substance was moving.

The researchers say that the system can be trained to ignore radiation sources like hospitals and bananas, which have a radioactive isotope of potassium. The intent of the system according to Jenkins and Fischbach isn’t to warn the cell phone user of the proximity of radioactive materials, but rather to warn authorities via GPS and cellular towers of a possible attack or radioactive spill in an area.

Researchers from Purdue University developed a new thermal interface material in 2007 using carbon nanotubes that made DailyTech headlines.