1) krypton-81
氪-81
1.
Atom trap, krypton-81, and the groundwater underneath the Sahara Desert;
原子阱,氪-81,撒哈拉的地下水
2) krypton
[英]['krɪptɔn] [美]['krɪp'tɑn]
氪
1.
Comparison in spatially-resolved emission image excited from low-pressure laser-induced plasmas using helium,argon,krypton
氦、氩、氪低压激光诱导等离子体激发的空间解析发射图谱的比较
2.
Objective: To study the efficacy and safety of the model foundation of choroidal neovascularization (CNV) induced by krypton laser in Brown Norway (BN) rats, and observe the trend of the formation and change of CNV after laser photocoagulation.
目的:探讨应用氪离子激光建立棕色挪威(brown Norway,BN)大鼠脉络膜新生血管(Choroidal neovascularization,CNV)模型的有效性和安全性,并观察CNV形成后的变化规律。
3.
Objective To investigate the effect of krypton laser photocoagulation on branch retinal vein occlusion.
目的 探讨氪黄激光治疗视网膜分支静脉阻塞的方法和疗效。
3) Krypton
[英]['krɪptɔn] [美]['krɪp'tɑn]
氪气
1.
Soft X ray laser radiation ranged from 40 nm to 110 nm is obtained by the 7th to the 19th order harmonic generation in krypton with femtosecond Ti∶sapphire laser operating at 780 nm, and the same phenomena especially the spectral shift is observed after the central wavelength of Ti∶sapphire laser is tuned to 795 nm.
利用中心波长在 780nm线偏振的掺钛蓝宝石超短脉冲激光 ,在氪气中观察到 40nm~ 110nm第 7~ 19次谐波的软X射线激光辐射 ,把中心波长调至 795nm时再次观察到相同的现象 ,特别是观察到谱线的移动 ,证实观察到的谱线是高次谐波 ,实验中还观察了谱线强度随气压的变化规律。
4) Ar-Kr
氩-氪
5) Kr lamp
氪灯
1.
Thermal lens effect of Kr lamp side pump Nd:YAG laser is analyzed in this paper.
对氪灯侧面泵浦Nd :YAG激光器的热透镜效应进行了分析 ,由实验得出热透镜效应的经验公式 ,并提出一些改进方案 ,在一定程度上减小了热透镜效
2.
In the test for continue-irradiance Kr Lamp and pulse-irradiance Xe Lamp, it is very important for measuring the Kr lamp irradiating power and Xe lamp irradiating energy.
根据氪灯、氙灯发光的工作原理,介绍了氪灯发光总功率和氙灯发光总能量检测系统。
3.
The Kr lamp and Xe lamp synthetic testing system is used for the test of Kr lamp and Xe lamp.
氪灯、氙灯光谱强度分布和光谱效率测量是反映氪灯、氤灯性能的关键指标。
6) krypton lamp
氪灯
1.
Places stress on krypton lamp current repair and light channel adjustment.
着重叙述了氪灯电路的修理和光路的调整。
补充资料:二氟化氪
分子式:KrF2
CAS号:
性质:无色固体,有挥发性。室温下自发分解为氪和氟,低于-30℃稳定,可长期在干冰温度(-78℃)下贮存。氧化性比氟强。溶于无水氟化氢。遇水迅速水解。能和其他氟化物形成多种加合物。通过放电、高能辐射及光化学法等合成。
CAS号:
性质:无色固体,有挥发性。室温下自发分解为氪和氟,低于-30℃稳定,可长期在干冰温度(-78℃)下贮存。氧化性比氟强。溶于无水氟化氢。遇水迅速水解。能和其他氟化物形成多种加合物。通过放电、高能辐射及光化学法等合成。
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