排序方式: 共有52条查询结果,搜索用时 609 毫秒
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A passively mode-locked grown-together composite YVO 4 /Nd:YVO 4 crystal laser is demonstrated with a semiconductor saturable absorber mirror by 880-nm laser-diode direct pumping.Under the absorbed pump power of 24.9 W,a maximum output power of 10.5 W at the repetition rate of 77 MHz is obtained,corresponding to the optical-optical conversion efficiency of 42.1% and the slope efficiency of 53.4%.The pulse width measured is 33 ps at the output power of 10 W. 相似文献
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本文以单冰晶石中的AlF4-基本结构单元为基础,构建了系列团簇,采用Restricted Hatree-Fock(RHF)量子化学自洽场方法和6-31G(d)基组对团簇进行优化,并在相同的方法和基组条件下计算分子振动频率及其拉曼活性,证实AlF4-结构中Al-F键的对称伸缩振动峰位在622cm-1附近。同时,用高温拉曼光谱仪原位实测了单冰晶石成分的物质及其熔体的常温和高温拉曼光谱,研究表明,在升温过程中有单冰晶石相生成,此外,分析了其结构及其振动光谱随温度的变化。 相似文献
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医药高等数学教学改革趋势研究 总被引:6,自引:0,他引:6
指出了传统非专业高等数学教学理论的缺陷,提出广度优先的教学策略,并就如何实现这一教学思想进行了探讨,探讨了教学内容、教学方法现代化的重要性,提出在医药院校开设数学实验的必要性. 相似文献
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High-power ultraviolet 278-nm laser from fourth-harmonic generation of an Nd:YAG amplifier in CsB_3O_5 crystal 下载免费PDF全文
We report on the experimental investigation and theoretical analysis of a nanosecond pulse high power ultraviolet(UV) 278 nm laser by fourth-harmonic generation(FHG) of a 1112-nm Nd:YAG amplifier in LiB_3O_5(LBO) and CsB_3O_5(CBO) crystals. The UV laser delivers a maximum average power of 10.3 W at 278 nm with peak power of 36.8 k W under input pump power of 41 W at 556 nm. This is, to the best of our knowledge, the highest output power at the specific UV wavelength of 278 nm. We also performed the theoretical investigation on the FHG with a model in the Gaussian approximation of both spatial and temporal profiles, especially accounting for the two-photon absorption effect in CBO crystal for the first time. The average output power, pulse width, and beam spatial distribution of the UV laser were simulated. The theoretical calculations are in close agreement with the experimental results. 相似文献
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采用光滑粒子流体动力学(SPH)方法模拟了液滴撞击带孔壁面的问题, 提出了随计算区域变化的链表搜索法. 结合实验进一步研究了不同物理条件下黏性、重力和内部压应力波动对铺展过程中液滴在 孔口运动情况的影响, 详细分析了有限时间段内孔口断面处的压强变化. 结果表明: 液滴撞击表面后快速向两端铺展, 到达孔口上方时形成射流, 在极短暂时间内重力对射流的影响很小, 但是黏性会引起射流向孔内弯曲. 在内部压应力和惯性作用下射流下部产生有规律的波动, 使得孔口上方流体反复的膨胀和吸收将附近应力较高区域流体吸入孔内发生孔吸现象. 内部压应力是导致液滴被吸入孔内并撞击另一侧孔壁形成飞溅现象的主要原因, 模拟效果和实验结果符合良好.
关键词:
液滴
带孔壁面
光滑粒子流体动力学(SPH)
链表搜索法 相似文献