Results 161 to 170 of about 92,138 (209)
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Tritium depth dependence of tritium imaging
Review of Scientific Instruments, 2001A Monte Carlo simulation of tritium β particle motion in a matrix material indicates that the probability of escape through the material surface is greater than 50% for near-surface tritium, but drops quite rapidly with increasing depth. Beyond an areal density depth of 2×10−5 g/cm2, the decline is close to exponential, with an e-folding length of ...
I. Youle, A. A. Haasz
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Health Physics, 1993
Tritium released into the environment may be incorporated into organic matter. Organically bound tritium in that case will show retention times in organisms that are considerably longer than those of tritiated water which has significant consequences on dose estimates.
Diabate, S., Strack, S.
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Tritium released into the environment may be incorporated into organic matter. Organically bound tritium in that case will show retention times in organisms that are considerably longer than those of tritiated water which has significant consequences on dose estimates.
Diabate, S., Strack, S.
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Health Physics, 1993
Microdosimetric aspects of tritium radiotoxicity are discussed. The level of coincidence of tritium locations and of radiation-sensitive sites does not appear to be decisive for relative effectiveness of tritium exposures. The actual target structure and dimensions seem to be of more importance.
K, Morstin +4 more
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Microdosimetric aspects of tritium radiotoxicity are discussed. The level of coincidence of tritium locations and of radiation-sensitive sites does not appear to be decisive for relative effectiveness of tritium exposures. The actual target structure and dimensions seem to be of more importance.
K, Morstin +4 more
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Science, 1996
Harold M. Agnew (Editorial, [13 Sept., p. 1475][1]) has proposed that the United States buy annually from Russia the supply of tritium expected to be needed for U.S. nuclear weapons in about 10 to 12 years and argues that this approach would be substantially cheaper than either the accelerator approach to producing tritium or its production in ...
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Harold M. Agnew (Editorial, [13 Sept., p. 1475][1]) has proposed that the United States buy annually from Russia the supply of tritium expected to be needed for U.S. nuclear weapons in about 10 to 12 years and argues that this approach would be substantially cheaper than either the accelerator approach to producing tritium or its production in ...
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JET experiments with tritium and deuterium–tritium mixtures
Fusion Engineering and Design, 2016Extensive preparations are now underway for an experiment in the Joint European Torus (JET) using tritium and deuterium-tritium mixtures. The goals of this experiment are described as well as the progress that has been made in developing plasma operational scenarios and physics reference pulses for use in deuterium-tritium and full tritium plasmas.
Horton, Lorne +215 more
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Physics World, 2021
A response to the news article “UK announces five potential sites for prototype energy plant”, which details the locations shortlisted to host the UK’s prototype fusion energy plant.
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A response to the news article “UK announces five potential sites for prototype energy plant”, which details the locations shortlisted to host the UK’s prototype fusion energy plant.
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Journal of the Royal Society of Health, 1988
TRITIUM is produced naturally by the interaction of cosmic rays with the atmosphere and in nuclear reactions in rock. Large quantities of tri tium are produced artificially in the nuclear industry and during the testing and use of thermonuclear weapons.
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TRITIUM is produced naturally by the interaction of cosmic rays with the atmosphere and in nuclear reactions in rock. Large quantities of tri tium are produced artificially in the nuclear industry and during the testing and use of thermonuclear weapons.
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Health Physics, 1993
Estimates of the health risks in humans from low-level exposure to tritium are presented. The health risks considered are those for cancer, genetic effects, and developmental abnormalities from exposures in utero. Because direct risk information for these effects is not available from human exposures to tritium, the following approach was used.
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Estimates of the health risks in humans from low-level exposure to tritium are presented. The health risks considered are those for cancer, genetic effects, and developmental abnormalities from exposures in utero. Because direct risk information for these effects is not available from human exposures to tritium, the following approach was used.
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