The major contribution to the tumor zone is from the neutron capture reaction of boron.
对肿瘤区的贡献主要来自硼中子吸收反应。
Microdosimetry plays an important role in the clinical application of boron neutron capture therapy (BNCT).
微剂量学研究在临床硼中子俘获治疗(BNCT)的计划设计和疗效评价中起着重要作用。
Boron neutron capture therapy(BNCT), a new cure for cancer, appeared in 60 's, which consists of polytechniques and manifold subjects.
硼中子俘获疗法是60年代兴起的治疗恶性肿瘤的新方法,属于多学科多技术相结合的一门应用科学。
Now first of all we're gonna talk about the fundamentals of the neutron capture and what happens in the neutron capture of a uranium 235 atom.
现在,首先我们要谈论,中子捕获的基本原理,在铀235原子的,中子捕获方面发生了什么。
A special medical therapy reactor (MTR) is required for boron neutron capture therapy (BNCT), which has extended progress in some therapy tests.
正在试验和研究中的硼中子治疗术(BNCT),要求设计专用反应堆,以适应大规模治疗的需要。
Objective to investigate the induction effect of the boron neutron capture therapy (BNCT) on apoptosis of human brain glioma U251 cells in vitro and the possible mechanisms.
目的研究硼中子俘获疗法(BNCT)能否诱导体外培养的U 251细胞发生凋亡,并探讨其诱导细胞凋亡的机制。
There are four principal neutron interactions that affect formation evaluation: elastic neutron scattering, inelastic neutron scattering, fast-neutron reactions and neutron capture.
影响地层评价的中子反应有四种,包括中子弹性散射、中子非弹性散射、快中子反应和中子俘获。
Neutron lifetime is inversely related to capture cross section.
中子寿命与俘获截面是倒数关系。
The carbon-oxygen log, elemental capture spectroscopy log, pulsed neutron spectroscopy log, aluminum activation log and oxygen activation log are all examples of activation logs.
碳氧比测井、元素俘获能谱测井、脉冲中子能谱测井、铝活化测井以及氧活化测井都属于活化测井。
The absorption of a neutron into an atom. The atom becomes energized and releases gamma rays of capture. The effect is used in well logging.
原子吸收中子的过程。原子受到激发,释放俘获伽马射线。测井中用到这种效应。
The abundances of neutron-capture elements in metal-poor stars, tightly related to the star formation and evolution, provide important clues to the chemical evolution of the Galaxy.
贫金属星的中子俘获元素丰度与恒星的形成和演化密切相关,它为研究星系形成早期的历史背景和化学演化提供了重要信息。
The abundances of neutron-capture elements in metal-poor stars, tightly related to the star formation and evolution, provide important clues to the chemical evolution of the Galaxy.
贫金属星的中子俘获元素丰度与恒星的形成和演化密切相关,它为研究星系形成早期的历史背景和化学演化提供了重要信息。
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