1·Their excitation and emission spectra were measured.
测量了它们的激发光谱和发射光谱。
2·A3 is detected using UV absorption and fluorescence emission spectra.
检测了A3的紫外吸收光谱和荧光发射光谱。
3·The thin film material has sharp red light emission spectra at a 616-619 nm position.
该薄膜材料在616 ~ 619纳米处存在尖锐的红光发射光谱。
4·The position of emission spectra were shifted due to the different glass compositions.
玻璃的发射光谱峰随玻璃组成不同发生位移。
5·UV-Visible spectra and fluorescence emission spectra were measured at room temperature.
在室温下测得其紫外可见吸收光谱和荧光发射光谱。
6·The emission spectra were obtained by using the concentration modulation spectroscopic technique.
采用浓度调制光谱技术对放电辉光光谱进行探测。
7·The emission spectra were obtained by using the concentration modulation spectroscopic technique.
报道了在近红外波段的差分浓度调制激光光谱技术的研究工作。
8·Its fluorescent emission spectra were measured and the main transition channel were recognized clearly.
测量了它的荧光发射谱,搞清了它的主要跃迁通道。
9·The excitation and emission spectra are detected by using the fluorescent spectrometer, model Hitach 850.
还利用日立——850型荧光光谱仪测定了其激发和发射光谱。
10·The differences for the excitation and emission spectra of one step method and two steps method were observed.
两种方法合成的夜光玻璃发光性质存在着明显的差异。