This focusing effect became weak and even disappeared when the irradiation direction deviated from the erythrocyte plane for more than an angle of 15°.
当入射方向偏离红细胞平面超过15度时这种会聚效应就变得很弱甚至消失。
参考来源 - 单光子和双光子激发荧光经组织穿透的对比研究及激光照射下的红细胞内部光分布:FDTD计算This focusing effect became weak and even disappeared when the irradiation direction deviated from the erythrocyte plane for more than an angle of 15°.
当入射方向偏离红细胞平面超过15度时这种会聚效应就变得很弱甚至消失。
参考来源 - 单光子和双光子激发荧光经组织穿透的对比研究及激光照射下的红细胞内部光分布:FDTD计算·2,447,543篇论文数据,部分数据来源于NoteExpress
激光操纵原子技术之一的激光会聚原子沉积可以利用原子沟道化效应得到高质量的纳米级沉积结构。
Channeling atoms can be used to produce deposited nano-structure of high quality in laser-focused atomic deposition which is one of the technologies of laser manipulating atoms.
这些优点证明原子沟道化效应是激光会聚原子沉积技术的补充。
These advantages demonstrate that atoms channeling is the content of complement in technology of laser-focused atomic deposition.
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