- 更多网络例句与红移相关的网络例句 [注:此内容来源于网络,仅供参考]
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The results of UV absorption show that λ max is not sensitive to the electronic effects exerted by the substituent in the coupler moiety. The λ max has a small red-shift when the anilide aromatic ring in the coupler moiety is larger. This indicates that the conjugation effect of the anilide ring with chorosorb is not very significant. It is important to note that a red-shift of 60-130 nm was observed when the coupler component changed from a 2-hydroxy-3-naphthanilide to a 2hydroxy-11H-benzocarbazole-3-naphthanilide coupler. The red-shift may be due to the conjugation resulting from the carbazole ring.
对上述三个系列偶氮染料吸收光谱的研究结果表明,偶合基酰胺芳环共轭环的扩大对偶氮染料在可见光区最大吸收红移作用不是很显著;当偶合基萘环上共轭环扩大了一个咔唑环后,其偶氮染料在可见光区的最大吸收大幅红移,跨入近红外染料行列,这一结果对红外偶氮染料的设计合成具有重要的参照价值。
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Now find that there is red-shifted spectra of many objects, including objects from the observer due to Doppler redshift, there are gravitational potential difference caused by the gravitational redshift, as well as large-scale structure of space-time caused by cosmological redshift and so on.
现在发现许多天体光谱中存在红移,其中有天体离开观测者引起的多普勒速度红移,也有引力势差造成的引力红移,还有时空大尺度结构引起的宇宙学红移等。
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The axial direction and radial direction spectrum is blue-shift or red-shift. On axial direction, the blue-shift or red-shift increases with the relative propagation distance, truncation parameter, refractive index constant increases and temporal coherence length decreases, and the spectral-shift gurgitation becom gragually steady. On radial direction, spectral switches appear, and the truncation parameter, spatial coherence parameter, temporal coherence length and refractive index constant also influence critical position and transition height et al.
光谱沿轴向、径向均出现蓝移或红移,随着相对传输距离、光阑截断参数、空间相干参数及折射率结构常数的增大,脉冲时间相干长度的减小,轴向光谱蓝移量或红移量逐渐增大,并且由明显地起伏逐渐趋于稳定,沿径向出现了光谱开关,光阑截断参数、脉冲时间相干长度、空间相干参数和折射率结构常数对光谱开关的数目、光谱开关的临界位置和光谱跃迁量等也产生影响。
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However, unlike the light source relative to the rest of the observer to see is the colorless astigmatism, and the light source relative motion of the observer to see is the red-shift light ( achromatous astigmatism occurs redshift of red-shift light ); Although the different inertial reference frame of the observer can see the speed of light, after the Lorentz transformation is the same as after c; but a different observer are exposed to the light energy is not the same achromatous (astigmatism energy and achromatous astigmatism occurs after the red-shift of red-shift of the light energy is out of the same ).
但是,与光源相对静止的观察者看到的是无色散光,而与光源相对运动的观察者看到的是红移光(无色散光发生红移后的红移光);虽然,不同惯性参照系的观察者看到的光速,经过洛伦兹坐标变换后都一样为c;可是不同的观察者所承受到的光能量是不相同的(无色散光的能量和无色散光发生红移后的红移光能量是完全不相同的)。
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The bathochromic shift was mainly due to the limitation of rotational movements of the dye. The rigidity of the silica surface restricted the freedom of the molecules. The lower polarity of microenvironment at the silica/water interface than that in aqueous environment should also make a contribution to the phenomenon.
通过对其本体、界面荧光光谱的分析,观察到R6G分子在亲水石英/水界面上出现5 nm红移,红移的原因主要是染料分子旋转运动受到限制,石英表面的刚性限制了分子的自由度,同时,石英/水界面更低的极性也对红移产生影响。
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From Karlsson's formula and the polar effect, we realize that the half periodic parameter of redshift is 0.206, in theory, we finally explain why the great wall is at redshift Z=0.079 in redshift space; We have defined quasar as the early star nearby the position poles and opposite poles, and given the answer for two difficult problems of theirs; Based on the course of explanation for redshift space, we have reason to think that our universe might be the linear expansion hyperspherical universe.
从Karlsson公式及极点效应,我们认识到红移的半周期参数为0.206,最终从理论上解释了为什么红移长城在红移空间的位置为 Z=0.079;我们定义类星体为在位置极点和异极点附近的早期恒星,进而给出与其相关的两个难题的答案;基于对红移空间的解释过程,我们有理由认为我们的宇宙是线性膨胀超球面宇宙。
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XRD showed hexagonal wurtzite structure. Room-temperature PL spectra of perfectly overcoated CdSe/ZnS only showed a narrow band edge emission. Emission peak was great red-shifted relative to absorption and the shift increases as the size decreases. The size-dependence of shift could be explained very well in terms of excition fine-structure model and stress at interface owing to lattice mismatch contributes to the shift between CdSe and CdSe/ZnS with the same size.
结果显示表面修饰完善的样品的荧光光谱只有一个窄而强的带边发射;所有样品的荧光峰相对于1S-1S吸收峰有较大的红移,并且移动量随尺寸的减小而增加,利用激子的精细结构模型很好地解释了红移量和尺寸的关系;核/壳结构的样品的吸收峰和荧光峰相对于同尺寸的单量子点也有红移现象,这是由于CdSe和ZnS的晶格失配在界面上产生压力造成的。
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Predicted Model of Aggregation of Molecules in Chinese Herbal Drugs by Support Vector Machines;2. The aggregation behavior of phenylhydrazone and hemicyanine,in Z-type LB multilayers has been studied by absorption, steady state and time-resolved fluorescence spectroscopies.
利用吸收、稳态和时间分辨荧光方法研究了苯腙和半花菁分子在Z型LB多层膜中的聚集体性质,苯腙和半花菁吸收光谱的红移和兰移,说明它们分别以J和H型聚集体形式存在于LB腹中苯腙和半花菁LB膜的荧光发射带分别在560nm和584nm处,亦分别对于它们溶液的荧光谱显示出红移和兰移的特征。
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Firstly, a group of red.shifts were determined using the emission line info extracted from the observed spectrum; Secondly, the template was red.shifted according to the candidates, and the correlation between the observed spectrum and the redshifted template was measured.
首先,利用提取出的发射谱线信息确定一组红移候选;然后,按这些红移候选将静止模板光谱红移,计算所得光谱与目标光谱的相关值;最后,确定最大相关值对应的红移候选为目标光谱的红移。
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It is discovered that the oxide thickness increases as the starting titanium iso-propoxide increases while other parameters are kept exactly unchanged, and accordingly, the peak redshifts initially and then blueshifts; Moreover, as the mass of silver nitrate increases, the peak redshifts and the absorption band goes wider; the synthetic temperature exerts no effect on the final shape and size of the prepared nanoparticles, only tolengthen the needed reaction time.
结果表明:二氧化钛壳层的厚度随异丙醇钛量的增加而不断增加,其紫外一可见吸收峰先红移,然后蓝移;随着硝酸银的质量的增加,银核的直径增加,并可观察紫外一可见吸收峰的红移,峰宽也逐渐变宽;合成温度的变化对包覆纳米颗粒的大小及形状没有明显的影响,只是改变了合成所需要的时间。
- 更多网络解释与红移相关的网络解释 [注:此内容来源于网络,仅供参考]
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cosmological redshift:宇宙红移
宇宙[学]模型 cosmological model | 宇宙红移 cosmological redshift | 宇宙学 cosmology
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Einstein shift:红移
einkorn 单粒小麦 | Einstein shift 红移 | Einstein theory 爱因斯坦相对论
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red shift:红移
"Sun公司的首席技术官Greg Papadopoulos为我们描述了"红移"(red shift)计算场景. 在这种场景下,越来越庞大的数据中心向其他公司和消费者供应计算资源,好像计算资源就来自云. 红移是指一种假定的加速度,即向外扩展数据中心的速度.
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red shift:红色光栅偏移,红移=>赤方偏移
red shank 桃叶蓼,红茎 | red shift 红色光栅偏移,红移=>赤方偏移,レッドシフト | red shift effect 红移效应
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gravitational red shift:引力红移
gravitational method 重力法 | gravitational red shift 引力红移 | gravitational waves 重力波
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gravitational red shift:重力红移
重力构造学 gravity tectonics | 重力红移 gravitational red shift | 重力滑动 gravitational gliding
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redshift:红移
Sun公司的首席技术官GregPapadopoulos为我们描述了"红移"(redshift)计算场景. 在这种场景下,越来越庞大的数据中心向其他公司和消费者供应计算资源,好像计算资源就来自云. 红移是指一种假定的加速度,即向外扩展数据中心的速度.
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redshift:<天>(天体)红移,红向移动
Dark Portal 黑暗之门 | redshift <天>(天体)红移,红向移动 | Sedormid [药]司眠脲(一种镇静药)
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redshift:红色光栅偏移 红移
redshank 春蓼 | redshift 红色光栅偏移 红移 | redshiftcontroversy 红移论争
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redshift survey:红移巡天
Red Rectangle nebula 红矩形星云 | redshift survey 红移巡天 | red straggler 红离散星