红移

Li2簇上束缚H2的振动频率红移

Red shift of the vibrational freqency for h_2 bonded on li_2 cluster

一个发射波长明显红移的二苯乙烯类pH探针

A Probe of Stilbene Derivative for pH with Distinct Red Shift in Emission Wavelength

La的掺杂使TiO2的吸收带边发生了红移；

La doping also caused red-shift of the UV-Vis absorption spectra ;

Ag纳米颗粒表面等离子体共振吸收峰的红移现象

Red-shift of surface plasmon resonance in Ag nanoclusters ion-implanted in silica glass

随着体系的W0和反应物浓度的增大，紫外可见吸收光谱中的最大吸收峰发生红移，粒子的粒径增大。

With the increase of Wo and the reactant concentration , the nanoparticle is bigger .

类星体光谱的MonteCarlo模拟及高红移类星体颜色法巡天中的选择效应

Discussions on Selection Effects of Multicolor Survey for High Redshift QSOs by Using Monte-Carlo Simulations

Co、Cu金属离子掺杂后，紫外-可见漫反射吸收光谱的吸收边均有较小红移，提高了对可见光的响应；在紫外和可见光区域的吸收均增强了。

The absorption edge of all doped-rutile shows a small red-shift . The absorbance is enhanced in the ultraviolet and visible region .

讨论了配合物的UV谱带与主体相比发生红移的原因。

The reason of red-shift for UV absorption peaks of the complexes compared to that of the host was discussed .

提出了射频等离子体使TiO2对光谱响应红移的修饰方法。

The modified RF plasma method enabled TiO2 to display a red shift of the response spectrum .

因Mo与纳米管间的耦合及量子限域效应，吸收边红移。

The coupling effect and quantum limiting effect between Mo and nanotube lead to red shift of absorption edge .

观测到声子限制效应引起的GaP纳米棒TO和LO模的红移。

The red shifts of the TO and LO modes were observed due to phonon confinement effect in GaP nanorods .

在电脉冲激励过程中，机械压力使得x偏振的光栅波长蓝移，而y偏振的光栅波长红移。

During the electrical pulse excitation , the grating wavelength is blue-shifted for the x-polarization and red-shifted for the y-polarization due to the mechanical stress .

红外吸收能力随着纳米ZnO粒径的减少而增强，同时红外吸收出现红移和宽化现象。

Infrared absorbability of nano-ZnO becomes better and the infrared absorption side shifts to lower frequency when the particle-size becomes smaller .

随着基片温度提高，薄膜折射率n和消光系数κ的短波峰将逐渐蓝移，而退火使其出现红移。

The peaks of refractive index n and extinction coefficient k undergo blue shift with increasing substrate temperature , and red shift occurs after thin film is annealed .

纳米晶粒的晶格膨胀导致Raman散射峰红移随Fe含量增多而相应加大。

The expansion of lattice for the nanocrystals results in that the red-shifting of Raman - scattered peak increases linearly with Fe concentration .

随着溶剂配合能力的增加，λmax、λem都发生红移。

With the strengthening of coordination ability of the solvent , the λ max and λ em had red shift .

掺P不但使TiO2的吸收带边产生红移，而且在可见光区有较大的吸收系数。

The doping of P not only causes the absorption band to red-shift , and also gives rise to extremely big absorption coefficient in the visible region .

金属离子掺杂明显增强TiO2纳米晶簇的光吸收。TiO2带隙发生红移。

The optical absorbance of TiO-2 after doping metal ions increased considerably and a red shift of the band-gap took place .

随着Mn掺杂量的增加，样品的晶格常数增大，样品的紫外发光峰先红移后蓝移。

And with increasing Mn content , the lattice constant of samples increases , and the UV emission firstly red-shifts and then blue-shifts .

稀磁半导体Zn（1-x）MnxTe吸收光谱压力红移的理论研究

Theoretical Study on High Pressure Red Shift of DMS Zn_ ( 1-x ) Mn_xTe Absorption Spectra

接着，在几百毫秒内，机械压力逐渐减弱，纤芯温度逐渐增加，这两个因素导致x偏振和y偏振的光栅波长都红移。

Both grating wavelengths of x - and y-polarization subsequently experience a red-shift due to the relaxation of mechanical stress and the increasing core temperature in many microseconds .

AAO模板吸收光谱变化及红移现象研究

The Study of Anodic Alumina Oxide Template about Absorbing Spectral and Red Shift

其拉曼峰与块体TiO2相比，峰位出现了红移，对此现象进行了分析和讨论。

The red shift of Raman spectra have been found in some nano-TiO2 / CF film samples , which was analyzed and discussed .

通过吸收峰位置的红移和减色效应，及DNA粘度的增大证明该配合物是以插入方式进入DNA的碱基对中。

The results , such as red shift of absorption peaks , increment in the viscosity of DNA , investigates the complex can insert into the inner of DNA bi - helix structure .

600℃时部分TiO2由锐钛矿转变为金红石相，使紫外光吸收线红移。

Crystal of partial TiO_2 changed from anatase to rutile in 600 ℃, which induced absorb edge of UV moved towards the visible light .

引入SW缺陷后的石墨烯纳米带的吸收和反射谱也发生了明显的红移。

The absorption and reflectance spectrum of the graphene nanoribbon appear distinctly redshift after introducing the SW defect .

UV-Vis扫描显示掺铁0.1%的Fe-N/TiO2紫外吸收峰较其他TiO2光催化剂强且明显红移。

The absoption peaks of doped-Fe_3 + 0.1 % Fe-N / TiO_2 were stronger than the other TiO_2 and had red shift .

我们根据价轨道电子密度图解释了NO吸附后振动频率红移的原因，这个解释完全不同于传统认为的3d对2π的反馈键理论。

According to the electron density figures of valence orbital , we gave an explanation of the variation of vibration frequencies , much different from that traditional which is mainly 3d-2 feedback theory .

稀土Gd的掺杂使纳米ZnO出现不同程度的红移，样品禁带宽度缩小，利于吸收较长波长的光进行光催化。

Gd doped Nano-ZnO powed have varying degrees of redshift , sample band width are narrow , which absorbs longer wavelength light in photocatalytic .

UV／Vis研究发现复合后材料的吸收光谱响应范围得到拓宽，复合材料的光敏曲线相对于吸收光谱发生了明显的红移；

F-Azo / TiOPc composites exhibited broadened absorption range and red-shift in term of photosensitivity when compared to their UV / Vis spectra .