应用辐射和同位素为出版有关核、辐射和放射性核素技术在化学、物理、生物化学、生物、医学、工程以及地球、行星和环境科学方面的发展和应用的大量原创和科学技术论文提供了一个高质量的媒介。核技术是在最广泛的意义上定义的,实验和理论论文都是受欢迎的。它们包括发展和使用-和-粒子、x射线和-射线、中子和其他核粒子以及来自所有来源的辐射,包括放射性核素、加速器、回旋加速器和反应堆以及来自自然环境的辐射。核磁共振和电子自旋共振是应用辐射和同位素领域的重要技术。应用辐射和同位素的相关主题包括以下内容,但是,我们鼓励作者提出其他可能发表在期刊上的主题:辐射源:设计、建造、生产、特性。放射性核素:生产、活化截面、目标设计、加工、质量控制程序。标签化合物的合成:核素标签化合物/放射性药物的合成、纯化、质量控制、体外检测。辐射和放射性测量:x射线、-射线、-和-粒子及其他形式辐射的测量;核子仪器,包括辐射光谱、剂量学、新型计数系统及全身计数器、新型辐射侦测系统。放射分析方法:活化分析、同位素稀释分析、放射免疫分析、放射性核素层析、放射光谱分析。核物理和化学主题,包括数据汇编,直接相关的实际应用。核地球物理学:研究地壳、水圈、大气和行星体;水、石油、天然气、煤炭和其他矿物的勘探、开采、运输和使用的核方法。放射化学:放射性核素的化学行为和形态。环境:在地质、环境、人类、动物或植物系统中,放射性核素和标记化合物的化学行为和形态(直接临床感兴趣的化合物除外);改变这种行为的因素。
Applied Radiation and Isotopes provides a high quality medium for the publication of substantial, original and scientific and technological papers on the development and applications of nuclear, radiation and radionuclide techniques in chemistry, physics, biochemistry, biology, medicine, engineering and in the earth, planetary and environmental sciences. Nuclear techniques are defined in the broadest sense and both experimental and theoretical papers are welcome. They include the development and use of - and -particles, X-rays and -rays, neutrons and other nuclear particles and radiations from all sources, including radionuclides, accelerators, cyclotrons and reactors and from the natural environment. Nuclear magnetic resonance and electron spin resonance are important technologies within the scope of Applied Radiation and Isotopes. Relevant topics for Applied Radiation and Isotopes include the following, however, authors are encouraged to suggest other topics which might also be published in the journal: Radiation sources: Design, construction, production, characteristics. Radionuclides: Production, activation cross-sections, target design, processing, quality control procedures. Synthesis of labelled compounds: Synthesis, purification, quality control, in vitro testing of radionuclide-labelled compounds/ radiopharmaceuticals.Measurement of radiation and radioactivity: Measurement of X-rays, -rays, - and -particles and other forms of radiation; nuclear instrumentation, including radiation spectrometry, dosimetry, novel counting systems and whole-body counters, novel radiation detector systems.Radioanalytical methods: Activation analysis, isotope dilution analysis, radioimmunoassay, radionuclide tomography, radiation spectrometry.Nuclear physics and chemistry topics including data compilations, directly relevant to practical applications.Nuclear geophysics: Studies of the earth's crust, the hydrosphere, the atmosphere and planetary bodies; nuclear methods for exploration, extraction, transport and use of water, oil, gas, coal and other minerals. Radiochemistry: Chemical behaviour and speciation of radionuclides. Environment: Chemical behaviour and speciation of radionuclides and labelled compounds other than those of direct clinical interest, in geological, environmental, human, animal or plant systems; factors which modify this behaviour.
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