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为进一步研究激光对光电探测器的干扰及损伤,利用10.6 m连续CO2激光辐照多晶硅光电探测器,进行了干扰与损伤阈值实验研究,得到了对多晶硅探测器的饱和干扰、损伤干扰阈值分别为5.5510-4 W/cm2、0.48 W/cm2;分析了不同干扰功率、不同干扰时间的干扰效果,依据探测器受干扰程度提出了将干扰等级划分为点饱和、中度饱和、重度饱和与点损伤4个等级;通过干扰激光功率与干扰光斑面积的变化关系,得到两者按幂函数y=76.3x0.29关系变化,并依据该变化关系探讨了10.6 m脉冲激光对红外成像系统的干扰效果。 相似文献
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In this paper, by using resonance enhanced (2+1) multiphoton ionization (REMPI) of AsH3 and detecting the daughter molecular ions AsH+ and As+, a long progression discrete structure was obtained from 267 to 291 nm, which obeys the formula ν0(cm-1)=68875.3+504.1v′2+5.26v′22. Analysis of the spectrum has revealed that it belongs to 4d Rydberg state transition. Our assignment yields the 4d Rydberg state parameters Te′=67881.1 cm-1, ωe′=495.1 cm-1 and δ=0.962. Finally the 4d Rydberg state structure of AsH3 was discussed. 相似文献
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An ~(40)Ar/~(39)Ar and fission track thermochronological study has been carried out on threesuites of granitoids collected along the northern and southern edges of the Qaidam Basin to betterconstrain the mechanisms accommodating the India-Asia collision around the Qaidam Basin(northern Tibet), in order to understand the evolution of the entire deformation area. Mica andK-feldspar have been analyzed and the cooling histories of the latter have been modeled. Thecooling histories based upon K-feldspar modeling and fission track ages show that samples simul-taneously recorded an important cooling event (7.5-10.7℃/Ma) around 30 Ma, which is thoughtto reflect an increase of denudation rate related to the tectonic activity in this area associated withuplift suggesting significant crustal thickening starting around 30 Ma in this area. The estimatedsedimentation rate in the Qaidam Basin, the propagation rate along the Altyn Tagh fault and fieldobservations support this deduction. 相似文献
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通过调节溶液的pH值,在水热条件下合成出长径比为2-45的La(OH)3纳米棒. 对水热合成过程中间体的结构演变分析,发现高碱度有利于小尺寸晶核的形成,La(OH)3晶体结构的各向异性导致这些晶种沿着C轴方向生长,进而形成纳米棒结构. 将La(OH)3纳米棒前驱体于773 K焙烧可以得到长径比为2-20的La2O2CO3纳米棒. 随着长径比的增加,La2O2CO3纳米棒暴露的(110)晶面逐渐增加,La3+-O2-碱性位的数目也从0.08增加到0.24 mmol/g. 因此,在Claisen-Schmidt缩合反应中,La2O2CO3纳米棒催化剂上的反应速率随着长径比的增加而逐渐增大. 相似文献
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以乙酸盐为原料,柠檬酸为络合剂,通过溶胶-凝胶的方法制备富锂阴极材料Li2MnO3,选用草酸亚锡(SnC2O4)为锡源,用Sn 4+代替Mn 4+,获得不同掺杂量的材料. 适当含量的Sn 4+掺杂可以提高材料的放电比容量,在低电流下获得256.3 mAh·g -1的高放电比容量,但由于Sn 4+离子半径过大,不能起到稳定结构的作用,材料的倍率性能较差. 在此基础上,选用氯化亚锡(SnCl2)进行掺杂改性,在材料中同时引入Sn 4+和Cl -掺杂,获得了层状结构更完整的粉末样品. 通过共掺杂改性的阴极材料可以在20 mA·g -1的电流密度,经过80圈的循环仍然保持153 mAh·g -1的放电比容量,且此时还未出现衰减现象,库仑效率保持在96%以上;在400 mA·g -1的电流密度下提供的比容量可高达116 mAh·g -1,是未掺杂样品的2倍左右. 相似文献