Stochastik der Strahlenwirkung
release_yvsl2f3mtrcure6ur36jsrq5v4
by
H. Dertinger, H. Jung
References
NOTE: currently batch computed and may include additional references sources, or be missing recent changes, compared to entity reference list.| Showing 1 - 30 of 221 references (in 25ms) | ||
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ELKIND, M. M., and H. SUTTON: Radiation response of mammalian cells grown in culture. Radiation Research 13, 556-593 (1960). , and W. B. MOSES : Postirradiation survival kinetics of mammalian cells grown in culture. J. cell. comp. Physiol, (suppl.) 58, 113 (1961). -, A. HAN, and K. W. VOLZ: Radiation response of mammalian cells grown in culture. J. nat. cancer. Inst. 30, No. 4, 705 (1963).
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HUG, 0., u. A. KELLERER: Zur Interpretation der Dosiswirkungsbeziehungen in der Strahlenbiologie. Biophysik 1, 1, 20-32 (1963).
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HUMPHREY, R. M., and W. K. SINCLAIR: The relative biological effectiveness of 22-Mevp X-Rays. VIII. Radiation Research 20, 593-599 (1963).
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[b10]via grobid |
LAJTHA, L. G., and R. OLIVER: Some radiobiological considerations in radio- therapy. Brit. J. Radiol. 34, 252-257 (1961).
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MILETIC, B., D. PETROVIC, A. HAN, and L. SASEL: Restoration of viability of X-irradiated L-strain cells. Radiation Research 23, 94-103 (1964).
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[b12]via fuzzy |
Quantum Physics of Vision Theoretical Discussion
M.H. Pirenne 1951 Progress in Biophysics and Biophysical Chemistry doi:10.1016/s0096-4174(18)30026-x | |
[b13]via fuzzy |
Quantitative Studies on Mammalian Cellsin Vitro
T. T. PUCK 1959 Reviews of Modern Physics doi:10.1103/revmodphys.31.433 | |
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RAJEWSKY, B.: Physikalische Darstellung des Schädigungsvorganges und ihre experimentelle Prüfung. In: Zehn Jahre Forschung auf dem physikalisch- medizinischen Grenzgebiet, 202-235. Leipzig: Georg Thieme-Verlag 1931.
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[b15]via fuzzy |
Specification of Radiation Quality
Harald H. Rossi 1959 Radiation Research doi:10.2307/3570787 pmid:13645959 | |
[b16]via grobid |
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Microdosimetry. Panel on Biophysical Aspects of Radiation Quality IAEA, Vienna (1965); to be published by IAEA, Vienna. -, and G. FAILLA: Tissue-equivalent Ionization Chambers. Nucleonics 14, 32-37 (1956).
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-, and W. ROSENZWEIG : Measurements of neutron dose as a function of linear energy transfer. Radiation Research 2, 417-425 (1955).
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[b20]via grobid |
SINCLAIR, W. K.: The Shape of Radiation Survival Curves of Mammalian Cells Cultured in vitro. Panel on the Biophysical Aspects of Radiation Quality IAEA, Vienna, March 1965. To be published by IAEA, Vienna. -, and R, A. MORTON: Biophys. J. 5, 1 (1965).
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[b21]via grobid |
Ableitung der in 2.1 angegebenen Relationen 1.
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[b22]via grobid |
A x ist der Erwartungswert der lokalen Energiedichte nach einem ein- zelnen Absorptionsereignis (6). Der Dosiseinheit entsprechen also im Literaturverzeichnis zu Teil III
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[b23]via grobid |
BARKNDSEN, G. W.: Impairment of the proliferative capacity of human cells in culture by a-particles with different linear-energy-transfer. Int. J. Radiat. Biol. 8, 453-466 (1964).
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[b24]via grobid |
-Relative Effectiveness of Ionizing Radiations in Relation to LET and the Influence of Oxygen. Panel on the Biophysical aspects of radiation quality, IAEA, Vienna (1965), to be published by IAEA, Vienna.
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-, and T. L. J. BEUSKER: Effects of different ionizing radiations on human cells in tissue culture. I. Radiation Research 13, 832-840 (1960).
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-, T. L. J. BEUSKER, A. J. VERGROESEN, and L. BUDKE: Effects of different ionizing radiations on human cells in tissue culture. II. Radiation Research 13, 841-849 (1960).
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BATEMAN, J. L., H. H. Rossi, V. P. BOND, and J. GILMARTLN: The dependence of RBE on energy of fast neutrons. II. Biological evaluation at discrete neutron energies in the range 0.43 to 1.80 MeV. Radiation Research 15, 5, 694-706 (1961).
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[b28]via fuzzy |
The Distribution of Linear Energy Transfer or "Ion Density" for Fast Neutrons in Water
John W. Boag 1954 Radiation Research doi:10.2307/3570287 pmid:13186091 | |
[b29]via grobid |
ELKIXD, M. M., and H. SUTTON: Radiation response of mammalian cells grown in culture. Radiation Research 13, 556-593 (1960).
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[b30]via grobid |
-and W. B. MOSES: Post irradiation survival kinetics of mammalian cells grown in culture. J. cell comp. Physiol, (suppl.) 58, 113 (1961).
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