1)  laser capture microdissection
激光微切割
1.
The RNA in pathobiological sections fixed by several fixatives was analyzed by laser capture microdissection and quantitative PCR.
采用激光微切割与定量PCR技术,分析使用不同提取方法从不同固定方法固定的病理切片中提取的RNA。
2)  laser
激光
1.
Analysis model and experimental research of dilution in laser induction hybrid cladding;
激光感应复合熔覆的稀释率分析模型及实验研究
2.
The Reconfigurable Multifunction Laser Processing System Based on the Optimal Slice Process;
基于最优切片工艺的可重构多功能激光加工系统
3.
Study of laser transmission effect in dye-cholesteric liquid crystals;
激光在手性染料液晶中的传输效应研究
3)  lasers
激光
1.
Comparison of histologic,biochemical and mechanical properties of murine skin treated with the long-pulse and Q-switched 1 064-nm Nd:YAG lasers;
长脉宽与Q开关1064nm Nd:YAG激光对皮肤作用的比较
2.
Combined Application of Argon and Nd: YAG Lasers in Treatment of Primary Angle-Closure Glaueoma;
氩激光联合Nd:YAG激光治疗原发性闭角型青光眼
3.
Unification Single Mode Equation of Class-B Lasers with Homogeneous Broad Line;
B 类均匀加宽激光器单模方程的统一性
4)  laser beam
激光
1.
The results show that:①the transient field become quasi-steady state after the laser beam scans 2 pots ②the peak temperature and the temperature difference of upper-lower surface calculated by 2D FEM are close with that calculated by 3D FEM ③good agreement is obtained between experimental and analytical result
用小步距间歇跳跃式移动光源模拟激光束的连续扫描,采用简化模型,对板料激光成形时的三维瞬态温度场进行了有限元分析。
2.
The polarization of the laser beam output from the PHC-1 500 laser unit was experimentally verified.
试验验证了PHC-1500型CO2激光器输出激光经传输光路转换后的偏振化方向。
5)  He-Ne laser
激光
1.
Study of information transfer mechanism on interaction between He-Ne laser and bio-tissue;
He-Ne激光与生物组织相互作用的信息传递机理研究
2.
Nursing and clinical observation of the patients with herpes zoster treated by He-Ne Laser;
氦-氖激光局部照射对带状疱疹的疗效观察及护理
3.
The objective of this study was to determine the regulation effects of He-Ne laser on protein metabolism,photosynthesis of Isatis indigotica seedlings exposed to enhanced ultraviolet-B(UV-B) lesions.
以菘蓝(Isatis indigotica Fort)幼苗为实验材料,比较研究了He-Ne激光对增强UV-B(辐射强度:10。
6)  laser-assisted
激光
1.
Comparison of laser in situ keratomileusis and laser-assisted subepithelial keratectomy for myopia more than-10.00 diopters;
两种准分子激光手术治疗超高度近视的对比研究
2.
Stromal cells change after epipolis laser in situ keratomileusis and laser-assisted subepithelial keratectomy in rabbits;
微型角膜刀法与乙醇浸润法准分子激光角膜上皮瓣下磨镶术对角膜基质细胞影响的实验研究
3.
Recovery of corneal sensitivity after laser in situ keratomileusis and laser-assisted subepithelial keratectomy;
准分子激光原位角膜磨镶术与准分子激光角膜上皮瓣下磨镶术后角膜知觉恢复的研究
参考词条
补充资料:热切割:激光切割
    利用激光束作为热源的热切割﹐工作原理与激光焊相似。激光切割的温度超过11000℃﹐足以使任何材料气化﹐因此在激光切割时﹐除熔化外﹐气化也起著重要的作用。有些材料(例如碳和某些陶瓷)的激光切割过程则纯属气化过程。金属的激光切割多採用大功率二氧化碳连续激光器。切割时﹐喷射惰性气体流﹐吹除切口熔化金属﹐可使切口光洁平直﹔喷射氧气流可提高切割速度。激光切割的切口细窄﹑尺寸精确﹑表面光洁﹐质量优於任何其他热切割方法。几乎所有的金属材料都可以用激光切割﹐可切割的厚度从几微米的箔片至50毫米的板材。但激光切割设备投资很高﹐主要用於12毫米以下各种厚度的不锈钢﹑鈦和鈦合金﹑难熔金属和贵重金属的精密切割﹐也可用於塑料﹑木材﹑布匹﹑石墨和陶瓷等非金属材料的切割﹐如木材加工业已用激光切割胶合板﹑刨花板﹐服装行业用以大量裁剪衣料。另外﹐激光切割还适合於某些特殊用途﹐如宝石轴承打孔﹑外科医生用激光作为手术刀等。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。