REFERENCES
1e
New York Operations-4682 Fallout Countermeasures for AEC Facilities:
A Preliminary Report, Breslin, A. Je and Solon, L. R., Dec. 1955,
26
Effects of Fnvironment in Reducing Dose Rates Produced by Radioactive
Fallout From Nuclear Explosionse
Santa Monica, Calif.
3.
he
be
6.
7.
RM-1285-1.
New York Operations (AEC)-3075
Gamma Rays.
Hill, J. E.
Sept. 1954.
Rand Corporation,
''
:
f-
Calculations of the Penetration of
Goldstein, H. and Wilkins, J. R., Jr. June 1954.
The Shielding Effectiveness of a Small House Against Gamma Radiation
Due to Fallout Following a Nuclear Explosion, Cowan, F. P. (Brookhaven
National Laboratory), Jan. 1955.
Unpublished.
Reactor ShieldingDesign Mammal.
Rockwell, Theodore III (Editor)
AEC Technical Information Division-7004, March, 1956.
X-Ray Protection Design.
May 1952.
Handbook 50 National Bureau of Standards,
Naval Radiological Defense Laboratory
Military Installations.
Aug. 1953.
Radiological Recovery of Fixed
Some Practical Considerations in Radiation Shielding. Morgan, G. W.
Atomic Energy Commission, Isotopes Division, P. 0. Box E, Oak Ridge,
Tenne Nov. 1948
9.
10.
X-Ray Attenuation Coefficients from 10 Kev to 100 Mev.
National Bureau of Standards-1003, May 1952.
Gamma-Ray Attenuation.
Jan. 1953.
Fano, U.
White, Gladys R.
National Bureau of Standards-2222
Oblique Attermation of Gamma-—Rays From Cobalt-60 and Cesium-137 in
Polyethylene,Concrete and Lead. Kirn, F. S. Kennedy, R. J., and
Wyckoff, H. O., National Bureau of Standards-2125, Dec. 1952.
™ortality in Swine and Dose Distribution Studies in Phantoms Exposed
to Super Voltage Roentgen Radiation."
Jr., Morgan, J. E. and Zeller, J. H.
Vol. 67, April 1952.
Tullis, J. L., Chambers, F. W.
.
ae
American Journal of Roentgenology,