磁共振力显微镜的分辨率接近于电子显微镜(10倍以内),这是目前生物学家所用到的最灵敏的成像技术。
MRFM resolution is nearly as good (within a factor of 10) of the resolution of electron microscopy, the most sensitive imaging technique that biologists use today.
画面来自神经科学家的显微镜,核磁共振成像或者电生理系统的记录。
This is what neuroscientists are looking at in their microscopes, MRI machines or electrophysiology systems.
例子包括激光、体管、子显微镜和磁共振成像。
Examples include the laser, the transistor, the electron microscope, and magnetic resonance imaging.
目的研究弥散张量磁共振成像(dti)在认识脑实质内肿瘤的生长方式和显微手术中的作用。
Objective To study the role of diffusion-tensor imaging (DTI) in realizing growing pattern and resection of intra-axial brain tumors.
目的研究弥散张量磁共振成像(dti)在认识脑实质内肿瘤的生长方式和显微手术中的作用。
Objective To study the role of diffusion-tensor imaging (DTI) in realizing growing pattern and resection of intra-axial brain tumors.
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