1) cadmium target
Cd靶
1.
The preparation of the cadmium target for producing 111 In by cyclotron using a method of electrodeposition is described.
通过研究电沉积过程中影响Cd靶质量及厚度的各种因素 ,确定了最佳工艺条件。
2) Cadmium
[英]['kædmiəm] [美]['kædmɪəm]
Cd
1.
The Effect of Aquic-Fluvial Soil Contained Cadmium on 3 Rice Straw in Situ Decomposed by Bacteria Agent;
Cd污染土壤对3种稻秸原位降解菌剂降解效果的影响
2.
The Periodic Properties of the Growth and Cadmium Accumulation of Seleng Wormood in the Contaminated River Sandy Medium;
Cd污染下蒌蒿生长和Cd积累的阶段特征
3.
Estimation of the accumulation of cadmium and lead by 14 vegetables from soils;
14种蔬菜对土壤Cd和Pb富集能力的估算
3) target
[英]['tɑ:ɡɪt] [美]['tɑrgɪt]
靶
1.
Fabrication of Cu multi-step target used in EOS experiment
状态方程实验用铜多台阶靶制备工艺
2.
Influence of characteristic X-ray of impurity element on anonymous spectral lines excited by hydrogen gas discharge source bombarding targets
杂质元素特征X射线对氢气放电源打靶新谱线的影响
3.
The Ar~+Bombarding and Cleaning to the Target of Copper and Stainless Steel;
氩离子轰击清洗铜和不锈钢靶
4) cadmium (Cd)
镉(Cd)
1.
To investigate the single and joint ecotoxicological effects of musk ketone or/and cadmium (Cd)at biochemical levels, the activity of antioxidant enzymes, including superoxide dismutase (SOD), peroxidase (POD)and catalase(CAT), and the contents of malondialdehyde(MDA), soluble protein(SP)and chlorophyll of coontail(Ceratophyllum demersum L.
为从生物化学角度探讨一种新型污染物———麝香酮与镉(Cd)单一和复合污染的生态毒理效应,以金鱼藻(Ceratophyllum demersum L。
5) β-cyclodextrin
β-CD
1.
Molecular recognition study on β-cyclodextrin with EPA by competitive inclusion method using phenolphthalein as a spectral probe and its oxidation stability;
竞争包结法研究β-CD对EPA的分子识别及对EPA稳定性的影响
2.
The fabrication of β-cyclodextrin mondified Au electrode and its inclusion with azobenzene;
MCT-β-CD修饰金电极的制备及其与偶氮苯的相互作用
3.
Preparation and Characterization of Herba Pogostemonis,Rhizoma Atractylodis and Radix Aucklandiae Compound Essential Oil-β-cyclodextrin Complex;
广藿香、苍术、木香总挥发油β-CD包合物的制备及表征
6) ratio of Cd to Zn
Cd/Zn
补充资料:靶扫描和靶重建
靶扫描和靶重建
影像学术语。CT检查中,对扫描野(SFOV)中某一兴趣区扫描时行较大矩阵重建的方式称靶扫描。在扫描及影像重建完成后,对显示野(DFOV)中某一兴趣区重新进行较大矩阵重建成像的方式称靶重建。前者是直接利用扫描野中兴趣区的较大量的原始数据进行影像重建,后者则是利用常规扫描中采集的原始数据进行兴趣区的影像重建。两种技术实现的基本前提都是一次扫描所获得的投影测量数据必须能够满足兴趣区影像重建矩阵所需的信息量。靶扫描在扫描前预先设定兴趣区,成像后不储存非兴趣区原始数据;靶重建则需储存层面扫描所获得的全部原始数据,占用较多的磁盘空间,但以后可在图像中任选兴趣区进行局部重建。两种技术在成像效果(空间分辨率,对比分辨率)上是一致的,这与单纯的局部图像放大(zoom)不同。后者没有增加兴趣区内像素数量,虽使影像扩大但分辨率并未提高,清晰度反有下降。
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参考词条