The potential detection of low-level aerosol isotopes from new civilian nuclear processes

As the world faces a challenging future in maintaining the commercial availability of radioactive isotopes for medical use, new methods of medical isotope production are being pursued. Many of these are small in size and could effectively operate continuously. With the potential for much shorter ret...

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Veröffentlicht in:	Applied radiation and isotopes 2017-08, Vol.126 (August 2017), p.232-236
Hauptverfasser:	Miley, H.S., Burnett, J.L., Foxe, M.P., Haas, D.A., Keillor, M.E., Lowrey, J.D., Mayer, M.F., McIntyre, J.I., Wood, J.S.
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Schlagworte:	ENVIRONMENTAL SCIENCES GENERAL STUDIES OF NUCLEAR REACTORS
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container_end_page	236
container_issue	August 2017
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container_title	Applied radiation and isotopes
container_volume	126
creator	Miley, H.S. Burnett, J.L. Foxe, M.P. Haas, D.A. Keillor, M.E. Lowrey, J.D. Mayer, M.F. McIntyre, J.I. Wood, J.S.
description	As the world faces a challenging future in maintaining the commercial availability of radioactive isotopes for medical use, new methods of medical isotope production are being pursued. Many of these are small in size and could effectively operate continuously. With the potential for much shorter retention times, a new suite of isotopes may soon be found in the environment. The authors estimate that many more aerosols containing low-level isotopes of gas/volatile origin could be detectable at short range and times, and a few at longer ranges and times as compared to those released in more common nuclear reactor operations. •New Medical Isotope production (MIP) facilities are coming online.•Modeled novel and classical medical isotope production techniques.•MDA values have been calculated for a multidimensional gamma-spectrometer.•New MIP methods may result in the environmental detection of additional isotopes.
doi_str_mv	10.1016/j.apradiso.2017.02.033
format	Article
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title	The potential detection of low-level aerosol isotopes from new civilian nuclear processes
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