1) top seeded solvent growth
顶部籽晶提拉法
1.
In this paper, high quality Nd~(3+):KGd(WO_4)_2 , Yb~(3+): KGd(WO_4)_2 and Yb~(3+): KY(WO_4)_2 crystal grown by Top Seeded Solvent Growth(TSSG) method were presented.
本文采用顶部籽晶提拉法,以K_2W_2O_7作助溶剂,通过荧光光谱实验选择合适的掺杂浓度,不同温度烧结固相合成晶体原料及助溶剂,设计合理的工艺参数,生长出优质新型激光晶体Nd~(3+):KGd(WO_4)_2、Yb~(3+):KGd(WO_4)_2及Yb~(3+):KY(WO_4)_2。
2.
In this paper, Yb:KYW crystal was grown by Top Seeded Solvent Growth( TSSG) method ,using K_2W_2O_7 as flux, the properties of Yb:KYW crystal were researched based on the study of the choice of the growing method, the raw material pre-processing , the growth technology and the annealing technology .
本文采用顶部籽晶提拉法(TSSG),以K_2W_2O_7为助熔剂,生长出Yb:KYW激光晶体。
2) TSSG method
顶部籽晶提拉法
1.
In this paper,Yb:KY(WO4)2 laser crystal with dimensions of 25 mm×21 mm×18 mm was prepared by TSSG method from the melting agent of K2W2O7.
采用顶部籽晶提拉法(TSSG)从助溶剂K2W2O7中生长出尺寸为25mm×21mm×18mm的Yb:KY(WO4)2激光晶体。
3) TSSG
顶部籽晶法
1.
A new Nd-activated nonlinear crystal,Na3(La1-xNdx)9O3(BO3)8(Nd:NLBO)with x=3%,was grown by the top-seeded solution growth(TSSG) method.
采用顶部籽晶法生长出掺杂浓度为3%的Nd:Na3La9O3(BO3)8(Nd:NLBO)晶体。
2.
Using top-seeded solution growth(TSSG) method with H3BO3(4N),Li2CO3(4N) and Cs2CO3(4N) as reactants and the mol ratio of Li2CO3:Cs2CO3:H3BO3=1∶1∶11,large CLBO crystal with dimensions of 65 mm×22 mm×12 mm had been grown,and the growth conditions of the CLBO crystal were studied.
以高纯硼酸、碳酸锂和碳酸铯为原料,摩尔比硼酸:碳酸锂:碳酸铯=11∶1∶1,采用顶部籽晶法,生长出尺寸为65 mm×22 mm×12 mm CsLiB6O10(CLBO)单晶,探讨了影响CLBO晶体生长的因素。
4) top-seeded Kyropoulos method
顶部籽晶泡生法
1.
The growth and properties of doping CLBO crystal have been investigated by top-seeded Kyropoulos method.
本文采用顶部籽晶泡生法进行掺杂CLBO晶体的生长及性能研究。
5) top-seeded solution growth method
顶部籽晶熔融法
1.
Near stoichiometric Mg∶Fe∶LiNbO3 crystals were grown by top-seeded solution growth method with K2O as fluxing medium.
以K2O作为助熔剂,采用顶部籽晶熔融法生长近化学计量比Mg∶Fe∶LiNbO3晶体。
6) top-seeded solution method
顶部籽晶熔盐法
1.
Large YAB single crystals have been grown by a high-temperature top-seeded solution method with borates based flux.
采用顶部籽晶熔盐法生长紫外低吸收YAl3(BO3)4晶体,测定了晶体的真空紫外透过截止波长,结果表明其真空紫外吸收边达到165 nm。
补充资料:提拉法
分子式:
CAS号:
性质:一种生长单晶的常用方法。将生长晶体用的材料置于适当的坩埚中加热熔融,使熔体保持在略高于材料熔点的温度下。将固定在拉杆上的籽晶与熔体表面接触,拉杆在不停地旋转中缓缓地向上提升。拉杆的散热作用使子晶上产生一定的温度梯度,促使熔体在晶体的下端不断地结晶。这种方法可以直接观测到晶体的生长过程,并可以通过调整各种条件得到大尺寸的单晶体。很多重要的无机固体材料的单晶体都可以利用这种方法制造,特别适合于生产大尺寸的技术晶体。
CAS号:
性质:一种生长单晶的常用方法。将生长晶体用的材料置于适当的坩埚中加热熔融,使熔体保持在略高于材料熔点的温度下。将固定在拉杆上的籽晶与熔体表面接触,拉杆在不停地旋转中缓缓地向上提升。拉杆的散热作用使子晶上产生一定的温度梯度,促使熔体在晶体的下端不断地结晶。这种方法可以直接观测到晶体的生长过程,并可以通过调整各种条件得到大尺寸的单晶体。很多重要的无机固体材料的单晶体都可以利用这种方法制造,特别适合于生产大尺寸的技术晶体。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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