221 resultados para 194-1198B
Resumo:
近年来,国内外在大功率半导体激光器方面的研究均取得了很大的进展。其中,大功率半导体激光器列阵的研究和应用成为最大的亮点,如超高电光转换效率、高亮度和高可靠性等主要光电特性均实现了巨大的突破。针对国内大功率半导体激光器主要研究内容和关键技术进行了总结,在外延片结构中广泛采用应变量子阱结构、无铝有源区宽波导大光腔结构及非对称波导结构来提高端面光学灾变损伤光功率密度,还从腔面光学膜、器件封装、器件可靠性、光束整形与耦合以及器件应用等几个方面给予介绍。
Resumo:
该文从理论上分析了实现InGaAs/GaAs/AlGaAs应变量子阱激光器高光功率转换效率、高输出功率的有效途径,并优化了器件结构,可以同时获得低的腔面光功率密度和小的垂直于结平面远场发散角。利用分子束外延生长构成了高质量InGaAs/GaAs/AlGaAs应变量子阱激光器,其最高光功率转换效率为53%、最大输出功率为3.7W,垂直于结平面方向远场发散角为30°。
Resumo:
CMOS/SOS devices have lower carriers mobility and higher channel leakage current than bulk silicon CMOS devices. These mainly results from the defects of heteroepitaxial silicon film, especially from the defects near Si-Sapphire interface. This paper describes the experiment results of CMOS/SOS devices characteristics improved by a better epitaxial silicon quality which is obtained by a modified solid phase epitaxy.
Resumo:
In this paper we present a new method for measuring diffusion coefficients in liquid metals under convection-less conditions with solid/liquid-liquid/solid trilayer. The advantage of this kind of trilayer is that effects from gravity-induced convection and Marangoni-convection can be omitted, so that the diffusion coefficient is determined more accurately. The Ta/Zn-Sn/Si trilayer were prepared with a multi-target ion-beam sputtering deposition technique and annealed in an electric furnace under an argon atmosphere. The interdiffusion of liquid zinc and tin at 500 degrees degree C was investigated. The diffusion concentration profiles were determined by energy dispersive spectroscopy. The interdiffusion coefficients range from 1.0x10(-6)cm(2)/s to 2.8x10(-6)cm(2)/s, which is less than previous values measured by capillary reservoir technique under 1g-environment where various convection exist. The precise interdiffusion coefficients of liquid zinc and tin result from the removing of disturbances of various kinds of convection.
Resumo:
土壤是陆地生态系统最大的碳库,其碳储量是大气碳储量的两倍。土壤呼吸是土壤碳库的最大输出途径。在干旱半干旱区降雨格局以及土壤水分条件的变化对土壤呼吸的影响具有重要意义。本研究以半干旱区科尔沁沙地东部樟子松人工林为研究对象,通过室内培养模拟研究、野外降雨量控制研究和降雨频率模拟及干湿交替模拟试验,研究了科尔沁沙地半干旱人工林生态系统土壤呼吸对水分变化的响应趋势,探讨了降雨格局变化对土壤呼吸的影响,结果表明: (1)土壤呼吸速率随温度和土壤含水量的升高分别呈指数和线性增长;温度和土壤含水量分别影响着土壤呼吸对土壤水分和温度的敏感性; (2)降雨量变化影响土壤呼吸日动态变化,降水量增加30%,土壤24h释放CO2量升高了35.9%,当降水量减少30%时,土壤24h释放的CO2量降低了59.6%,而且干旱降低了土壤呼吸日动态变化的幅度; (3)降雨量变化对土壤呼吸月季动态具有一定影响。降雨量增加30%,8~10月土壤总呼吸CO2释放速率升高40.7%~166.4%,土壤异养呼吸CO2释放速率升高40.5%~194.3%;降雨量降低30%使降雨较频繁的8月份土壤总呼吸CO2释放速率降低34.0%~70.0%,土壤异养呼吸CO2释放速率下降20.9%~ 64.0%,而在降雨较少的9~10月份降雨量的减少对土壤呼吸则没有显著影响; (4)降雨量的变化对土壤总呼吸和异养呼吸温度敏感性有一定影响。当降雨量减少30%时,土壤总呼吸的Q10值由5.4下降到2.22,土壤异养呼吸的Q10值由4.84下降到1.81; (5)用温湿度耦合作用经验模型Rt = 0.307e0.0064(W·T)来描述三个降雨处理样地土壤呼吸速率与土壤温度及土壤含水量的关系,可以解释土壤呼吸速率变异的80.2%; (6)在较高的温度条件下,降雨频率增加一倍时,土壤呼吸速率将升高约24%;当温度较低时,降雨频率对土壤呼吸速率的影响不显著; (7)土壤呼吸随着干旱程度的增加而逐渐下降,但当进行降水模拟后,土壤呼吸值迅速升高,可升高降水前的41.0% ~ 128%,而后又迅速下降,呈现明显的脉动(pulse)效应。