| ID | 原文 | 译文 |
| 41376 | 基于实验样机翅膀被动扭转的实际,采用最小二乘法计算出实际最佳几何攻角为55°,能有效指导微型飞行器翅膀的设计,从而提高飞行器最大升力和飞行效率。 | According to the actual linear twist of the wing, the least square method is used to calculate the actual best geometric angle of attack at about 55°, which can effectively guide the design of the wing, thereby improving the maximum lift and flight efficiency of the flapping-wing micro air vehicles. |
| 41377 | 以LD泵浦光在侧泵模块水冷结构中的传输过程为研究内容, | The transmission process of LD pump light in the water cooling structure of side pump module is studied in this paper. |
| 41378 | 基于模块结构参数、光波传输特性及介质透光特性,系统分析了泵浦光在各介质表面和内部的偏振态变化、光强衰减过程及变化规律。 | Based on the influence of module structure parameters, light wave transmission characteristics and medium transmission characteristics, the polarization state change, light intensity attenuation process and change rules of pump light on the surface and inside of each medium are systematically analyzed. |
| 41379 | 重点分析了由介质表面菲涅尔效应和内部吸收效应等造成的光强衰减; | The attenuation of light intensity caused by the surface Fresnel effect and internal absorption effect is mainly analyzed. |
| 41380 | 计算了泵浦光在水冷结构中单次往返过程的损耗系数和偏振态变化矩阵。 | Finally, the loss coefficient and polarization state change matrix of the pump light in a single round trip in a watercooled structure are calculated. |
| 41381 | 分析结果对于优化模块泵浦效率、增强散热效果等有一定借鉴作用。 | The analysis results can be used for reference to optimize the pumping efficiency and enhance the heat dissipation effect of the module. |
| 41382 | 采用高温固相反应法制备了不同掺Tb浓度的CaSrSiO_4纳米荧光粉。 | A series of CaSrSiO4 nanophosphors with different Tb3+-doped concentrations have been prepared by high-temperature solid-state reaction method. |
| 41383 | TEM照片显示粉末颗粒为球状,直径30~50nm。 | SEM image shows that the powder particles show a shape of ball and a diameter of about 30~50 nm. |
| 41384 | XRD主要衍射峰与CaSrSiO_4基质基本一致,表明Tb离子掺入对CaSrSiO_4晶体结构影响较小。 | XRD pattern of the samples doped Tb3+ ions is basically consistent with that of CaSrSiO4 matrix, indicating that Tb3+ dopant has little influence on the crystal structure of CaSrSiO4 powder. |
| 41385 | 285nm紫外光激发下,观测到强的紫外、蓝光和绿光等光谱,优化掺Tb浓度为0.7%。 | Under the 285 nm excitation, the intense ultraviolet, blue and green PL spectra are observed and the optimum Tb3+ -doped concentration is 0.7%. |