1) broad-band
宽线宽
1.
Effective compression of laser pulses using backward SBS of broad-band and multi-transverse mode Cr:LISAF laser pulses is realized.
将Cr:LISAF静态输出光聚焦于光纤介质中,进行模式竞争,实现了宽线宽、多横模Cr:LISAF激光脉冲的后向SBS,有效地压缩了激光脉冲。
2.
Under the condition of given pump laser energy, using a lens with short focal length to focus the Cr∶LiSAF electrooptical Q- switched laser pulses into CS 2 SBS-cell, the backward SBS scattering of broad-band and multi-transverse-mode Cr∶LiSAF laser pulses is realized, and the effective pulse width′s compression is observed.
在抽运能量一定的条件下 ,采用强聚焦短焦距透镜提高焦点处的光功率密度 ,将Cr∶LiSAF电光调Q激光器的输出脉冲聚焦于装有CS2 介质的受激布里渊散射 (SBS)池中 ,实现了宽线宽、多横模Cr∶LiSAF激光脉冲的后向SBS ,并观察到对激光脉宽的有效压缩。
2) linewidth broadening
线宽展宽
3) linewidth
['lainwidθ]
线宽
1.
Comparison of linewidth measurement using different probe based on the least square fitting model;
基于最小二乘拟合的不同探针测量线宽的比较
2.
Study on Nano-scale Linewidth Measurement Technology;
纳米尺度线宽测量技术的研究
4) Line width
线宽
1.
This paper introduces the line width and text orientation control of inserting the AutoCAD graphics in Word in some ways,compares several illustrations and analyzes the conception of layer and finds an optimum method of editing the line width and text.
讨论了AutoCAD图形用几种方法插入到Word中图形线宽和文本方向的控制,对几种插图方法作了比较,对层的概念进行分析,找到了一种最佳方法来编辑线宽和文本,编辑完后对图形的缩放不影响线宽,提高了插图的质量。
2.
: During the fabrications of MEMS with thick resist lithography technique, most elements need better line width and vertical sidewall, so rigorous control of exposure dose and development time is necessary to get better patterns.
DILL曝光模型和MACK显影模型,编制了接触式曝光系统的厚层抗蚀剂光刻模拟软件,用其分析在理想曝光剂量条件下,抗蚀剂显影后的线宽和侧壁陡度随显影时间的变化规律,分析得出了给定厚度的抗蚀剂的显影时间,为实验工艺上严格控制显影时间提供依据。
3.
In this paper, we got the regularity of cavity ring-down spectroscopy when the line width of laser pulse is far larger than the absorption line width of measured substance.
本文研究了当激光脉冲线宽远大于被测吸收物质的吸收线宽时,衰荡光谱满足的规律,以及在这种情况下,测量灵敏度的大小。
5) line-width
线宽
1.
Research results show that lengthening external cavity will make FBG-ECL have narrow line-width.
根据光纤光栅外腔半导体激光器(FBG-ECL)的等效腔模型,讨论了外腔长度对FBG-ECL的调制特性、线宽以及强度噪声的影响。
2.
33cm ̄(-1))has been measured and analysed,obtaining widths and strengths ofeight absorption lines and the first showing that line coupling not only effects on the absorptioncoefficient but also on the measurement accuracy of line-width and line-strength.
33cm ̄(-1))进行了高分辨吸收光谱测量,给出了8条谱线的线宽、线强的实验值。
3.
We derivation and analysis the filtering characteristic of this two ring resonator filter,the line-width and finesse of single ring resonator filer,the mode splitting of Mach-Zehnder ring resonator filter and the effect of cavities loss are also discussed.
采用标准单模光纤和光纤耦合器构造了单环形振荡滤波器和Mach-Zehnder环形振荡滤波器,推导并分析了两种光纤环形振荡滤波器的滤波特性,单环形振荡滤波器腔内振荡模式线宽和精细度,Mach-Zehnder环形振荡滤波器中模式分裂现象,以及腔内损耗对它们的影响。
6) broadened line
宽线
1.
Application of broadened line plus large geophone array seismic technology in exploration in mid Kuqa;
宽线加大组合地震技术在库车坳陷中部勘探中的应用
2.
In data acquisition, we introduce the application of broadened line technology in the mountainous seismic survey, high precision measurement technique suitable for high-density (10000 channels) seismic data acquisition, and absorptive medium simulation based layout design.
采集技术方面主要介绍了宽线地震在山地的应用,与万道高密度地震采集配套的高精度测量技术,以及基于吸收介质模拟的观测系统设计技术。
3.
The scattering noise caused by various flank and surface factors can be suppressed by using detection method of broadened line and lateral long distance geophone array in seismic data acquisition,which effectively improves the signal-to-noise ratio of original data.
采用宽线横向大基距组合检波方式采集,可以大幅度压制侧面及各种地表因素带来的散射噪声,有效的提高原始资料的信噪比。
补充资料:慧宽大师《佛祖纲目》
【慧宽大师《佛祖纲目》】
慧宽。益州杨氏子。父玮。为道士。号三洞先生。姊信相生而知道。终日禅寂。宽五六岁。日与信相谈论。俱非世事。听者一不能晓。家世奉道。宽独不喜。父诟骂。使拜天尊。宽不得已拜之。铁像蹶然崩坏。举族惊异。因录所论言句。先是龙怀寺禅师昙相。临终语弟子会曰。吾报缘当生广汉绵竹峰嵿杨氏家。后七年汝来见我。言讫而逝。其后会梦。相责以负约。会惊窹。遂造峰嵿扣其扉。宽曰。扣扉者谁。会曰。弟子会也。宽笑曰。何以知吾。而称弟子。会曰。得师声。犹昔日声也。遂相见。其父出所录。与信相谈论者示之。盖大庄严等论。会即奉宽。再归龙怀寺落发。时年十三。会畏之如神龙。怀众三千指。皆躬力作。宽独闲适。人以为言。会曰。此吾先师也。因具道其所以。自是神异日显。俗呼圣和尚。其姊信相。亦随出家。净慧寺有一异僧。入定满寺。红焰亘燃。人未之识。信相曰。此火聚尊者。入火光三昧耳。以水灭之。可入。遂作水观。一室湛然。惟水不见其形。异僧钦叹。以为得果。时亦号圣尼。永徽四年六月二十五日。宽示寂。时谓观音大士应身云。
慧宽。益州杨氏子。父玮。为道士。号三洞先生。姊信相生而知道。终日禅寂。宽五六岁。日与信相谈论。俱非世事。听者一不能晓。家世奉道。宽独不喜。父诟骂。使拜天尊。宽不得已拜之。铁像蹶然崩坏。举族惊异。因录所论言句。先是龙怀寺禅师昙相。临终语弟子会曰。吾报缘当生广汉绵竹峰嵿杨氏家。后七年汝来见我。言讫而逝。其后会梦。相责以负约。会惊窹。遂造峰嵿扣其扉。宽曰。扣扉者谁。会曰。弟子会也。宽笑曰。何以知吾。而称弟子。会曰。得师声。犹昔日声也。遂相见。其父出所录。与信相谈论者示之。盖大庄严等论。会即奉宽。再归龙怀寺落发。时年十三。会畏之如神龙。怀众三千指。皆躬力作。宽独闲适。人以为言。会曰。此吾先师也。因具道其所以。自是神异日显。俗呼圣和尚。其姊信相。亦随出家。净慧寺有一异僧。入定满寺。红焰亘燃。人未之识。信相曰。此火聚尊者。入火光三昧耳。以水灭之。可入。遂作水观。一室湛然。惟水不见其形。异僧钦叹。以为得果。时亦号圣尼。永徽四年六月二十五日。宽示寂。时谓观音大士应身云。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条