放射性核素
放射性衰变
半衰期
指数衰减
β衰变
物理
核物理学
衰变产物
α衰变
衰变方案
放射化学
辐射
核医学
医学
伽马射线
化学
氡
药代动力学
内科学
出处
期刊:Radiographics
[Radiological Society of North America]
日期:1998-09-01
卷期号:18 (5): 1247-1256
被引量:9
标识
DOI:10.1148/radiographics.18.5.9747617
摘要
When a parent radionuclide decays to its daughter radionuclide by means of alpha, beta, or isomeric transition, the decay follows an exponential form, which is characterized by the decay constant lambda. The decay constant represents the probability per unit time that a single radioatom will decay. The decay equation can be used to provide a useful expression for radionuclide decay, the half-life, the time when 50% of the radioatoms present will have decayed. Radiotracer half-life has direct implications in nuclear imaging, radiation therapy, and radiation safety because radionuclide half-life affects the ability to evaluate tracer kinetics and create appropriate nuclear images and also affects organ, tumor, and whole-body radiation dose. The number of radioatoms present in a sample is equal to the activity, defined as the number of transitions per unit time, divided by the decay constant; the mass of radioatoms present in a sample can be calculated to determine the specific activity (activity per unit mass). The dynamic relationship between the number of parent and daughter atoms present over time may lead to radioactive equilibrium, which takes two forms--secular and transient--and has direct relevance to generator-produced radionuclides.
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