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M Awschalom

Showing results (11-20 of 35) with videos related to

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Medical Physics|July 1, 1982
The effect of missing backscatter on the dose distribution of a p(66)Be(49) neutron therapy beamM Awschalom, I Rosenberg, R K Ten Haken
Medical Physics|September 1, 1983
Activation of the major constituents of tissue and air by a fast neutron radiation therapy beamR K Ten Haken, M Awschalom, I Rosenberg
Medical Physics|March 1, 1982
The use of nonhydrogenous wedges for therapeutic neutron beam shapingR K Ten Haken, M Awschalom, I Rosenberg
Health Physics|March 1, 1983
Kerma transmission through steel for a p(66)Be(49) neutron beam: an updateR K Ten Haken, M Awschalom, I Rosenberg
International Journal of Radiation Oncology, Biology, Physics|June 1, 1991
The lethal effects of Fermilab fast neutrons vary with the depth of cells in a water phantomC K Hill, R K Ten Haken, M Awschalom
Medical Physics|November 1, 1981
p(42)Be neutron therapy beams: dose rate and penetration as a function of target thickness and beam filtrationI Rosenberg, M Awschalom, T Y Kuo, et al.
Medical Physics|September 1, 1980
The influence of target thickness and backstop material on proton-produced neutron beams for radiotherapyM Awschalom, I Rosenberg, T Y Kuo, et al.
Health Physics|July 1, 1981
Kerma transmission through various materials for a p(66)Be(49) neutron beamM Awschalom, A Hrejsa, I Rosenberg, et al.
Health Physics|February 1, 1984
Analysis of personnel exposures in neutron therapy facilitiesI Rosenberg, M Awschalom, R K Ten Haken, et al.
Health Physics|November 1, 1972
The underground migration of radionuclides produced in soil near high energy proton acceleratorsT B Borak, M Awschalom, W Fairman, et al.
Pageof 4

Showing results (11-20 of 35) with videos related to

Sort By:
Pageof 4
Medical Physics|July 1, 1982
The effect of missing backscatter on the dose distribution of a p(66)Be(49) neutron therapy beamM Awschalom, I Rosenberg, R K Ten Haken
Medical Physics|September 1, 1983
Activation of the major constituents of tissue and air by a fast neutron radiation therapy beamR K Ten Haken, M Awschalom, I Rosenberg
Medical Physics|March 1, 1982
The use of nonhydrogenous wedges for therapeutic neutron beam shapingR K Ten Haken, M Awschalom, I Rosenberg
Health Physics|March 1, 1983
Kerma transmission through steel for a p(66)Be(49) neutron beam: an updateR K Ten Haken, M Awschalom, I Rosenberg
International Journal of Radiation Oncology, Biology, Physics|June 1, 1991
The lethal effects of Fermilab fast neutrons vary with the depth of cells in a water phantomC K Hill, R K Ten Haken, M Awschalom
Medical Physics|November 1, 1981
p(42)Be neutron therapy beams: dose rate and penetration as a function of target thickness and beam filtrationI Rosenberg, M Awschalom, T Y Kuo, et al.
Medical Physics|September 1, 1980
The influence of target thickness and backstop material on proton-produced neutron beams for radiotherapyM Awschalom, I Rosenberg, T Y Kuo, et al.
Health Physics|July 1, 1981
Kerma transmission through various materials for a p(66)Be(49) neutron beamM Awschalom, A Hrejsa, I Rosenberg, et al.
Health Physics|February 1, 1984
Analysis of personnel exposures in neutron therapy facilitiesI Rosenberg, M Awschalom, R K Ten Haken, et al.
Health Physics|November 1, 1972
The underground migration of radionuclides produced in soil near high energy proton acceleratorsT B Borak, M Awschalom, W Fairman, et al.
Pageof 4