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D E Starchman

Showing results (1-10 of 17) with videos related to

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Medical Physics|March 1, 1974
Effect of adjacent cavity on ionization-chamber measurements in a phantom for 1.25-MeV to 25-MV photon beamsR Golden, D E Starchman
Radiology Management|December 4, 1993
A practical guide for protecting personnel, pregnant personnel, and patients during diagnostic radiography and fluoroscopyD E Starchman, W R Hedrick
Radiology|February 1, 1971
The importance of build-up thickness in the dose increase produced adjacent to voids in tissue-equivalent material exposed to 10-35 MeV electronsD E Starchman, J H Chao
Health Physics|January 1, 1971
Experimental determination of photon energy--angle distributions for cobalt-60 after penetration of thick concrete barriersD E Starchman, F E Hoecker
Radiology|February 1, 1970
Quantitative measurement of the increase in dose adjacent to voids during irradiation of a lucite phantom by high-energy electron beamsD E Starchman, J H Chao
Radiology|July 1, 1970
Tissue-air ratios for rotational therapy with 32-MeV x raysD E Starchman, J H Chao
Radiology|July 1, 1972
Perturbation of isodose distributions adjacent to cavities in tissue-equivalent media during irradiation by 10-35 MeV electronsD E Starchman, J H Chao
Health Physics|January 27, 2000
Anomalous dose assessment associated with film badge storage in a controlled areaW R Hedrick, D E Starchman
Radiology|February 1, 1977
Linearity of exposure with indicated time and current for diagnostic radiography unitsD E Starchman, R G Johnson, W J Howland
Medical Physics|January 1, 1984
Over-response of tissue-equivalent ionization chambers at low energies: effect of high-Z surface contaminationW R Hedrick, D L Hykes, D E Starchman
Pageof 2

Showing results (1-10 of 17) with videos related to

Sort By:
Pageof 2
Medical Physics|March 1, 1974
Effect of adjacent cavity on ionization-chamber measurements in a phantom for 1.25-MeV to 25-MV photon beamsR Golden, D E Starchman
Radiology Management|December 4, 1993
A practical guide for protecting personnel, pregnant personnel, and patients during diagnostic radiography and fluoroscopyD E Starchman, W R Hedrick
Radiology|February 1, 1971
The importance of build-up thickness in the dose increase produced adjacent to voids in tissue-equivalent material exposed to 10-35 MeV electronsD E Starchman, J H Chao
Health Physics|January 1, 1971
Experimental determination of photon energy--angle distributions for cobalt-60 after penetration of thick concrete barriersD E Starchman, F E Hoecker
Radiology|February 1, 1970
Quantitative measurement of the increase in dose adjacent to voids during irradiation of a lucite phantom by high-energy electron beamsD E Starchman, J H Chao
Radiology|July 1, 1970
Tissue-air ratios for rotational therapy with 32-MeV x raysD E Starchman, J H Chao
Radiology|July 1, 1972
Perturbation of isodose distributions adjacent to cavities in tissue-equivalent media during irradiation by 10-35 MeV electronsD E Starchman, J H Chao
Health Physics|January 27, 2000
Anomalous dose assessment associated with film badge storage in a controlled areaW R Hedrick, D E Starchman
Radiology|February 1, 1977
Linearity of exposure with indicated time and current for diagnostic radiography unitsD E Starchman, R G Johnson, W J Howland
Medical Physics|January 1, 1984
Over-response of tissue-equivalent ionization chambers at low energies: effect of high-Z surface contaminationW R Hedrick, D L Hykes, D E Starchman
Pageof 2