1) red shift
红移
1.
The studies on spectral reflectance s “red shift”and“blue shift”of Vitex negulido var. heterophylla at Taishang gold area in Shandong province;
山东省台上金矿区荆条反射光谱的“红移”和“蓝移”现象
2.
Substitution by Tb3+ or Gd3+ ions in the Y3+ sites will red shift the emission light of the phosphor.
95-xGdx)Al5O12∶Ce3+系列荧光粉具有与Y3Al5O12∶Ce3+相同的石榴石晶体结构,但晶胞参数随Tb、Gd取代Y而略有增加;随Tb、Gd掺杂量增加,荧光粉发射波长逐渐红移,当x=2。
3.
Spectroscopic analysis exhibits that the increased conjugated system,enhanced electron-donating ability of acceptor,and electron-withdrawing ability of donor result in red shift in both absorption and fluorescence for these compounds.
研究发现化合物中增大的共轭体系和增强的推拉电子基团会导致吸收峰和荧光峰产生大的红移;随着结构的改变,这些化合物的荧光从蓝色变成橙红色。
2) Red-shift
红移
1.
Anatase TiO_2 and red-shift introduced by doping with Fe:pseudopotential calculations and ultraviolet spectroscropy;
锐钛矿TiO_2及其掺Fe所导致的红移现象研究:赝势计算和紫外光谱实验
2.
The development of red-shift of its response spectrum is one of the most important subjects of the research.
TiO2在光催化方面应用前景十分广阔,而阻碍其应用的是它的宽禁带,因此研究开发响应光谱红移的TiO2就成为当前光催化剂研究的重要课题。
3.
The introduction of naphthyl group can enhance the conjugate degree of the porphyrin,and cause red-shift of the absorption spectra.
与四苯基卟啉相比,萘基的引入增大了卟啉环的共轭性,使得光学吸收波长与荧光发射波长均发生不同程度的红移,Q带吸收峰形改变且激发波长增长。
3) Redshift
红移
1.
Statistical properties of different class Blazar for redshift and spectral indices;
不同类Blazar的红移及谱指数统计特性
2.
Photometric redshift estimation based on PCA;
基于主成分分析的测光红移方法
3.
Redshift Estimation of Galaxy Spectra Based on Similarity Measure;
基于相似性度量的星系光谱红移估计
4) red and blue shift
蓝移与红移
5) Red shifting H-bond
红移氢键
6) absorption red-shift
吸收红移
1.
Design of composites based on supramolecular structure of nanoparticles-dye and mechanism of absorption red-shift;
纳米粒子与染料超分子结构复合材料的设计及其吸收红移机理
