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- A 120 fs femtosecond pulse laser with wavelength of 800 nm was applied to irradiate YAG crystals grown by Czochralski (CZ) and temperature gradient technique (TGT) methods. 采用波长为 80 0nm ,脉冲宽度为 12 0fs的飞秒激光对提拉法和温梯法生长的YAG晶体进行辐照。
- High quality a plane (11 20) sapphire was grown by the temperature gradient technique (TGT). Chemical corrosion was used to the slices cut from various parts of the sapphire crystal. 用温度梯度法 (TGT)生长出了高质量的a面 (11 2 0 )白宝石单晶。
- temperature gradient technique (TGT) 温梯法
- improved temperature gradient technique 改进的温梯法
- Study on Large-sized Ruby Grown by Temperature Gradient Technique 温梯法大尺寸红宝石晶体的研究
- CALCIUM FLUORIDE CRYSTAL GROWTH WITH IMPROVED TEMPERATURE GRADIENT TECHNIQUE 采用改进的温梯法生长氟化钙晶体
- Defect Study of Sapphire Crystal Grown by Temperature Gradient Technique 温梯法白宝石晶体的缺陷研究
- Growth of Large?sized Sapphire Crystals by ?Temperature Gradient Technique(TGT) 温梯法大尺寸白宝石单晶的生长
- Decarbonization and Decolorization of Large Sapphire Crystals Grown by the Temperature Gradient Technique 温梯法生长大尺寸蓝宝石晶体的脱碳去色退火研究
- Defect Study of r-plane Sapphire Single Crystal Grown by Temperature Gradient Technique r面白宝石单晶的温梯法生长及缺陷研究
- ?apphire boules,120mm in diameter and 4kg in weight have been grown by temperature gradient technique(TGT). 应用温梯法生长出直径120mm,质量为4kg的白宝石晶体。
- Keywords lithium aluminate;temperature gradient technique(TGT);molybdenum;lithium oxide; 铝酸锂;导向温度梯度法;钼;氧化锂;
- Keywords calcium fluoride crystals;temperature gradient technique (TGT);inclusion; 氟化钙晶体;温度梯度法;包裹物;
- Keywords optical materials;temperature gradient technique;lithium aluminate;anneal;surface structure;surface morphology;absorption spectrum; 光学材料;温度梯度法;铝酸锂;退火;表面结构;表面形貌;吸收光谱;
- temperature gradient technique 温度梯度技术
- Examples of interactions are mass transfer caused by temperature gradient. 温度梯度所引起的质量转移是交叉作用的例子。
- Second, objective function was minimized with conjugate gradient technique. 第二,用共轭梯度法将目标函数最小化。
- If the temperature gradient becomes too large, then convection will take over the bulk of the energy transport. 如果温度梯变得太大,那么对流将承担能量传输的大部分。
- The combined effect of uplift and denudation upon the temperature gradient can be obtained by formula (3. 86). 抬升和剥蚀对温度梯度的联合效应可以根据公式(3.;86)进行估定。
- The temperature gradient is typically caused by the power dissipated by the energized coil. 温度梯度通常是由于被激励线圈所消耗的功率引起的。
