1) acceptable composition ratio
可接受掺杂比
1.
For studying the influence of composition ratio and acceptable composition ratio on frequency conversion of AgGa1-xInxSe2,by means of theoretical analysis of acceptable composition ratio and crystal Sellmeier equations,the phase-matching diagrams and acceptable composition ratios for the second harmonic generation(SHG) and the optical parametric oscillation(OPO) pumped by Nd3+:YAG(1.
为了研究掺杂比及可接受掺杂比对晶体AgGa1-xInxSe2频率转换的影响,依据可接受掺杂比的理论和晶体Sellmeier方程,给出了光学二次谐波产生(SHG)和Nd3+:YAG(1。
3) acceptor doping
受体掺杂
4) doping ratio
掺杂比
1.
The effects of doping ratio and heat treatment temperature on the structure and the electrical conductivity of ATO powder were studied.
研究了掺杂比、热处理温度等工艺条件对ATO粉体结构和导电性能的影响。
2.
Results indicate that the most optimal electrical properties are obtained at doping ratio of 4%-8% in mole and the resistivity decreases with the increasing of heat treatment temperatures.
采用水热法制备锡锑氧化物(ATO)纳米粉,利用XRO方法研究不同Sb—Sn掺杂比及热处理温度对ATO结构和电性能的影响。
5) dopant ratio
掺杂比
1.
The effects of oxygen pressure and dopant ratio on the resistivity and optical transmittance of ZnO:Al films by pulsed laser deposition have been investigated.
通过对膜进行霍尔系数测量及SEM、XRD测试分析 ,详细研究了靶材中的化学配比 (掺杂比 )对膜的透射比和电阻率的影响 。
2.
In this paper, the effects of oxygen pressure and dopant ratio on the resistivity and optical transmittance of ZnO:Al films by pulsed laser deposition have been investigated.
通过对膜进行霍尔系数测量及SEM、XRD测试分析 ,详细研究了靶材中的化学配比 (掺杂比 )对膜的透光率和电阻率的影响。
补充资料:比昂斯滕·比昂松
比昂斯滕·比昂松(1832~1910)挪威戏剧家、诗人、小说家。主要作品有剧作《皇帝》、《挑战的手套》,诗集《诗与歌》等。1903年作品《挑战的手套》获诺贝尔文学奖 。获奖理由: “他以诗人鲜活的灵感和难得的赤子之心,把作品写得雍容、华丽而又缤纷”。
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