借助SEM分析了不同缺陷的成核机制,确定了获得良好表面形貌所需的最佳生长条件。
The mechanism of surface defect formation was analyzed by SEM observations. The optimal growth conditions for obtaining a good morphological surface were determined.
一项重大变革能解决上面提到的几乎所有问题:在室内用立体农场种植作物,调节各种生长条件至最佳状态。
One strategic shift would do away with almost every ill just noted: grow crops indoors, under rigorously controlled conditions, in vertical farms.
采用最佳的生长和工艺条件克服了铌酸锶钠锂晶体的组分过冷和内部生长条纹,提高了晶体的光学均匀性。
The constitutional supercooling and internal growth striation in the SNLN crystals have been overcome and the optical homogeneity of the crystals have been improved by employing optimum growth...
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