7.
Dessauer, F.
8.
Lea, D.E.
Point-heat theocy.
Z, Phys. 20:2383-302, 1923,
Actions of Radiation on Living Cells, Cambridge University
Press, London and NY, 1956.
9.
Bond, V.P. and Feinendegen, L.E. Intranuclear 31 thymidine:
* Dosimetric, radiobiological and radiation protection aspects,
Health
Physics 12: 1007-1023, 1966.
10.
NCRP Report 63.
Tritium and other radionuclide labeled compounds
incorporated in genetic material...
Bound, V.P.
yse than a Tae
at
be ing
The conceptual basis for evaluating risk from low-level
radiation exposure,
a
NCRP, Wash. D.C., 1979,
Dose Limits.
Critical Issues in Setting Radiation Protection
National Council on Radiation Protection and
Measurements, 1982,
"
to
12.
says
can
hal.
Low-level radiation reponse explained in
terms of fluence and cell critical volume dose.
be
Eighth Symposium on
Microdosimetry, Julich, pp. 423-439, 1933,
Howevels:
13.. Varma, M.N. and Bond, V.P.
ansferred $8 |
5
Emptrical evaluation of a cell critical
volume dose vs. cell response function for pink mutations in
ed such an yi
quantal
Bond, V.P. and Varma, M.N.
Tradescantia.
14.
Eighth Symposium on Microdosimetry, pp. 430-450, 1983.
Bond, V.2., Varma, M.N., Sondhaus, C.A., and Feinendepen, L.E.
alternative
to absorbed dose,
An
quality, and RBE at low exposures,
Radiat. Res. 104, S-52-5-57, 1985.
15.
Fetnendegen, L.E., Booz, J., Bond, V.P.,
and Sondhaus,
C.A.
Microdosimetric approach to the analysis of cell responses at low dose
and low-dose rates.
Radiation Protection Dosimetry 13, 299-306, 1985.
radiation.
ope 27-85, 19679
W.Ce
Roesch,
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