1) spectroscopic imaging
分光成像
1.
The capability of Fourier transform infrared(FTIR) spectroscopic imaging to provide detailed images of unprocessed latent fingerprints while also preserving important trace evidence is demonstrated.
利用傅立叶红外分光成像(FTIR)在保留痕迹证据的同时,又能呈现详细的未处理潜指纹。
2) imaging spectrometer
成像分光仪
3) fluorescence molecular imaging
荧光分子成像
1.
In vivo fluorescence molecular imaging plays a more and more important role in the observation of diseases, drug research and biology research because of its low cost, simplicity and no ionizing radiation to biological tissue.
荧光分子成像技术以低成本、简单易行、对生物体无电离辐射等优势在活体中进行疾病观察、药物及生物学等研究中发挥越来越重要的作用。
4) optical sectioning tomography
光学分层成像
5) optical imaging and analysis
光学成像和分析
1.
Whether on theory or in applications, optical imaging and analysis have gained great progresses with the developments of biological studies and labeling techniques and which exhibits a good prospect.
随着分子生物学和标记技术的进步,光学成像和分析有了很快的发展,无论是从理论上还是应用上都有所突破,展现了良好的前景。
6) Optical molecular imaging
光学分子成像
1.
With the constant progress of optoelectronic information techniques, optical molecular imaging techniques, based on the fluorescent report genes, will lead to the real time visua.
随着光电信息技术的不断进步,基于荧光报告基因的光学分子成像技术将在细胞、细胞网络、组织、器官和个体等不同层次实现分子与细胞事件的实时可视化,从而在重大疾病的早期诊断和药物研发中发挥重要作用。
补充资料:分光
1.分享别人的烛光。指得人之惠而不费人之财。 2.形容极短的时光。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条