Decades-old challenge has researchers seeking new materials for radiation detection
BOSTON - A more sensitive, more selective and easily deployable radiation detection material is necessary to meet complex 21st century challenges. In the AAAS symposium "Radiation Detectors for Global Security: The Need for Science-Driven Discovery," researchers addressed some of the technical challenges and gaps and suggested a science-driven approach to uncovering novel materials that will benefit countrywide security and medicine.
"Until now, it can be argued that we've approached the challenge in an Edisonian-style; I think it's time to make a drastic change in how we pursue solutions to radiation detection," said Anthony Peurrung, director of the Physical and Chemical Sciences division at Pacific Northwest Countrywide Laboratory. "In order for us to make new discoveries, we need to enhance our understanding of radiation physics so that we make educated choices about which materials will and will not perform as we need them to, thus working more efficiently toward a solution."
5 primary materials are used for radiation detection, but they all have limitations, such as small size, challenges in manufacturing, poor discrimination of radionuclides and poor sensitivity. For example, single crystalline materials, used as semiconductors or scintillators, generally provide the highest sensitivity and best energy resolution. But, it can take a decade or more to develop high-quality, single crystals that are of sufficient size for use as radiation detectors, and there are a limited number of manufacturing facilities to produce the crystals.
Peurrung leads PNNL's Radiation Detection and Material Discovery Initiative, which is a three-year, $4.5 million research effort aimed at discovering new materials for radionuclide identification, accelerating discovery processes and improving our fundamental understanding of radiation detection.
Bill Weber, a Lab Fellow, organized the symposium. He is a AAAS fellow and is internationally acknowledged for his seminal scientific contributions on the interaction of radiation with solids and radiation effects in materials.
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The symposium was held at the 2008 AAAS Yearly Meeting in Boston, Mass., on Saturday, February 16, 2008, at 10:30 a.m. Other speakers included Bill Moses, Lawrence Berkeley Countrywide Laboratory, Kanai Shah, Radiation Monitoring Services, Incorporated and Lynn Boatner, Oak Ridge Countrywide Laboratory.
Pacific Northwest Countrywide Lab is a D.O.E. Office of Science Countrywide Lab where interdisciplinary teams advance science and technology and deliver solutions to America's most intractable problems in energy, Countrywide security and the environment. PNNL employs 4,200 staff, has a $850 million Yearly budget, and has been managed by Ohio-based Battelle since the lab's inception in 1965.