1) FWHM method
半高宽法
2) Half width on half height
半高处半宽
3) half-width
半高宽
1.
Physical Mechanism and Half-width of Spectrum Widening;
谱线展宽的物理机制及其半高宽
2.
The half-width values of X-ray diffraction profile and microhardness on the electro-polished and ground surfaces of super high strength steel 37SiMnCrNiMoV and spring steel 60Si2Mn that were quenched and tempered at different temperature were measured.
对淬火和不同温度回火处理的37SiMnCrNiMoV超高强度钢和6 0Si2Mn弹簧钢的电解抛光表面和磨削表面的X射线衍射线的半高宽和显微硬度进行测量,并通过线形分析得到了两种表面的亚晶粒尺寸和微观应变。
3.
The results were as follows:The changes of half-width were closely related to tempering time and tempering temperature.
在利用X射线衍射研究淬火65Mn钢回火残余应力时发现:半高宽的变化与回火时间、温度密切相关。
4) FWHM
半高宽
1.
Effect of Aiming Distance on Full Width at Half Maximum(FWHM) of Signal Pulses Generated by Thermal Spray Particles and Corresponding Calibration;
瞄准距离对热喷涂粒子脉冲信号半高宽的影响和校正
2.
The unit cell parameters and full width of the half maximum (FWHM) of (110) Bragg peak of as prepared o-LiMnO2 in different sintering temperatures were investigated.
通过对不同温度条件下烧结样品的晶胞参数、布拉格(110)晶面峰半高宽及电化学性能研究发现:600℃下合成样品的半高宽最大,堆垛层错率高,同时电化学性能也最好,首次放电容量达到156mAh·g-1,20次循环后仍保持在140mAh·g-1以上。
3.
The result showed that the doping not only increased the dislocation density, but also increased FWHM (Full Width at Half Maximum).
研究证实了扩散会导致InSb位错密度增加,导致双晶衍射的半高宽增加。
5) Half width
半高宽
1.
In general,the half width of X-ray diffraction is used as a strength index of material surface.
通常用X射线衍射线的半高宽作为材料表面的强度指标。
2.
In accordance to the accurate Voigt profile expression obtained by using the Fourier trans- form method,the relationship among the half widths of the Voigt profile,the Gaussian profile and the Lorentzian profile is calculated with the Taylor series.
根据我们利用傅里叶变换方法得到的精确佛克脱线型的表达式,利用泰勒级数计算了佛克脱线型、高斯线型和洛伦兹线型半高宽之间的关系。
6) full width at half maximum
半高宽
1.
The slice sensitivity profiles (SSPs)and the full width at half maximum(FWHMs)were measured and evaluated with scanning slice width of 2ram at pitch=0.
0,扫描层厚2mm(标称值)进行扫描和重建,测试和评价螺旋CT模拟机的层敏感度曲线(SSP)及半高宽(FWHM)。
补充资料:宽法
1.犹言从宽处理。
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