Flash Radiography With 24 Gev/C Protons

C L Morris,E Ables, K R Alrick,Maurice B Aufderheide,P D Barnes,Kevin L Buescher, D J Cagliostro,D J Clark, C J Espinoza,Eric N Ferm, Robert A Gallegos, S D Gardner,J J Gomez,G A Greene,A L Hanson,E P Hartouni,G E Hogan,N S P King,K Kwiatkowski, Rodger Liljestrand, F G Mariam,F E Merrill,Dane Morgan, K B Morley, C T Mottershead,M Murray, P D Pazuchanics,John E Pearson, J S Sarracino,A Saunders, J Scaduto,A E Schach Von Wittenau,R A Soltz, S M Sterbenz,R T Thompson,Kevin R Vixie,Mark D Wilke, D M Wright, J D Zumbro

JOURNAL OF APPLIED PHYSICS（2011）

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摘要

The accuracy of density measurements and position resolution in flash (40 ns) radiography of thick objects with 24 Gev/c protons is investigated. A global model fit to step wedge data is shown to give a good description spanning the periodic table. The parameters obtained from the step wedge data are used to predict transmission through the French Test Object (FTO), a test object of nested spheres, to a precision better than 1%. Multiple trials have been used to show that the systematic errors are less than 2%. Absolute agreement between the average radiographic measurements of the density and the known density is 1%. Spatial resolution has been measured to be 200 mu m at the center of the FTO. These data verify expectations of the benefits provided by high energy hadron radiography for thick objects. (C) 2011 American Institute of Physics. [doi:10.1063/1.3580262]

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关键词

nondestructive testing,eddy current testing,systematic error,spatial resolution

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