Computed Tidal Relativistic Red-Shifts of Frequency Standards on Earth and in Space Stations

Frequencies of frequency standards are shifted by the local static gravity red shifts and also modulated by the tidal relativistic red shifts. We compute the tidal relativistic red shifts using a time-domain method and present the numerical results for the National Institute of Metrology （NIM） in Beijing, Laboratoire National de Metrologie et Essais-Systeme de References Temps-Espaee （LNE-SYRTE） in Paris and Physikalisch-Teehnische Bundesanstalt （PTB） in Braunschweig. The differences of the tidal relativistic red shift approach as large as 1.1 × 10^-16 when frequency standards at NIM are compared with those at SYRTE and PTB. Moreover, the tidal relativistic red shifts of frequency standards in space stations are also computed.

Using of the Generalized Special Relativity in Deriving the Equation of the Gravitational Red-Shift

In this work we present a study of a new method to prove the equation of the gravitational red shift of spec-tral lines. That’s according to the generalized special relativity theory. The equation of the gravitational red shift of spectral lines has been studied in many different works, using different methods depending on the Newtonian mechanics, and other theories. Although attention was drawn to the fact that the well-known ex-pression of the gravitational Red-Shift of spectral lines may be derived with no recourse to the general rela-tivity theory! In this study a unique derivation has been done using the Generalized Special Relativity (GSR) and the same result obtained.

Red-shift law of intense laser-induced electro-absorption in solids

A theoretical study on the red-shift of laser-induced electro-absorption is presented. It is found that laser-induced red-shift scales with the cube root of the pump laser intensity in the optical tunneling regime and has an obvious deviation from this scale in the multi-photon regime. Our results show that in the optical tunneling regime, the laser-induced red shift has the same law as that in the direct current （DC） approximation. Though the scales are the same in the optical tunneling regime, the physical pictures in the two cases are quite different. The electro-absorption in the DC case is a tunneling-assisted transition process, while the laser-induced electro-absorption is a mixed multi-photon process.

Theoretical study of the N—H···O red-shifted andblue-shifted hydrogen bonds

Theoretical calculations are performed to study the nature of the hydrogen bonds in complexes HCHO···HNO, HCOOH···HNO, HCHO···NH3, HCOOH···NH3, HCHO···NH2F and HCOOH···NH2F. The geomet- ric structures and vibrational frequencies of these six complexes at the MP2/6-31+G(d,p), MP2/6-311++G(d,p), B3LYP/6-31+G(d,p) and B3LYP/6-311++G(d,p) levels are calculated by standard and counterpoise-corrected methods, respectively. The results indicate that in complexes HCHO···HNO and HCOOH···HNO the N—H bond is strongly contracted and N—H···O blue-shifted hydrogen bonds are observed. While in complexes HCHO···NH3, HCOOH···NH3, HCHO···NH2F and HCOOH···NH2F, the N—H bond is elongated and N—H···O red-shifted hydrogen bonds are found. From the natural bond orbital analysis it can be seen that the X—H bond length in the X—H···Y hydrogen bond is controlled by a balance of four main factors in the opposite directions: hyperconjugation, electron density redistribu- tion, rehybridization and structural reorganization. Among them hyperconjugation has the effect of elongating the X—H bond, and the other three factors belong to the bond shortening effects. In complexes HCHO···HNO and HCOOH···HNO, the shortening effects dominate which lead to the blue shift of the N—H stretching frequencies. In complexes HCHO···NH3, HCOOH···NH3, HCHO···NH2F and HCOOH···NH2F where elongating effects are dominant, the N—H···O hydrogen bonds are red-shifted.

Assembly Induced Super-Large Red-Shifted Absorption:The Burgeoning Field of Organic Near-Infrared Materials

Supramolecular assembly of organic dye compounds with J-aggregation leads to a red-shifted absorption spectrum that greatly facilitates the construction of near-infrared(NIR)materials.A considerable improvement of the material functions requires that the absorption red-shift be larger than 100 nm,but such a super-large red-shift is challenging,and the rules leading to the super-large red-shifted absorption is still not explicit.In this review,we focused on those J-aggregated organic dye materials with super-large red-shifted absorption.The nature of the super-large red-shift is originated fromthe intermolecular charge transfer between neighboring chromophores.The super-large red-shift can be obtained by tuning either the molecular structure or kinetic assembly process in a delicate manner.Materials with super-large red-shifted absorption have been successfully applied to biological imaging,phototherapy,electronic devices,and solar cells,and show great potential in many other fields.The elaboration of assembly induced super-large red-shifted absorption is promising for design of supramolecular NIR materials with tuned structures,enhanced functionalities,and a wide array of applications.

Hydrogen Bonding Interaction of Formic Acid-, Formaldehyde-, Formylfluoride-Nitrosyl Hydride： Theoretical Study on the Geometries, Interaction Energies and Blue- or Red-Shifted Hydrogen Bonds

The hydrogen bonding interaction of formic acid-, formaldehyde-, formylfluoride-nitrosyl hydride complexes was investigated by the density functional theory （DFT） and ab inito method in conjunction with 6-311＋＋G（2d,2p） basis set. The geometries, vibrational frequencies and interaction energies of the complexes were calculated by both standard and CP-corrected methods respectively. Moreover, G3B3 method was employed to estimate the interaction energies. There are C--H…O, N--H…O, N--H…F blue-shifted H-bonds and red-shifted O----H…O H-bond in the complexes. Electron density redistribution and rehybridization contribute to the N--H and C--H blue shifts. All geometric reorganizations contribute to the N--H blue shifts and partial geometric reorganizations contribute to the C--H blue shifts. The geometric reorganizations of the complex C except ZH（5）-O（4）-C（1） contribute to the O----H red shift. For the N--H blue shifts, the effect of r（N--O） variation on the N--H blue shifts is larger than that of ZH-N-O variation. Rehybridization plays a dominant role in the degree of N--H blue shifts, whereas the electron density redistribution contributes more to the degree of C--H blue shifts than the other effects do.

结构参数对领结型纳米孔等离子体光镊共振效应的影响

等离子体光镊可以将光场能量限制在纳米级的体积内,从而产生较大的梯度力对粒子进行捕获和操纵。使用时域有限差分(FDTD)方法对金膜上的领结型纳米孔进行数值分析,结果表明,在波长为400~2 000 nm范围内存在两种模式的共振,分别为Fabry-Pérot共振和等离子体共振。Fabry-Pérot共振对金膜厚度比较敏感,随着金膜厚度增加,共振峰发生90 nm的红移;而等离子体共振峰随着孔径和孔间距的增加向波长更大的方向偏移;通过模拟粒子捕获,发现与其他材料的粒子相比,金粒子会导致等离子体共振峰发生更大的偏移,且随着粒子从结构外运动至结构底部,共振峰会持续发生红移。本研究对实际应用中纳米结构的制备具有参考价值,且在单分子操纵、生物传感等方面具有重要意义。

羟基-炔点击反应制备具有红移发射的非传统荧光化合物及性能

以丙炔酸甲酯为原料,分别与2-二乙基氨基乙醇、N-甲基二乙醇胺和三乙醇胺经常温羟基-炔点击反应在无催化剂和无溶剂条件下制备得到三组含叔胺和乙烯基醚非传统发色团的有机荧光化合物。利用傅里叶红外光谱仪(FT-IR)和核磁共振波谱仪(NMR)确证所得化合物的分子结构。利用紫外-可见分光光度计(UV-Vis)和荧光分光光度计探究了化合物的荧光性能,结果表明:所得三组化合物均表现出浓度增强发光及激发波长依赖荧光特性。以三乙醇胺、N-甲基二乙醇胺和2-二乙氨基乙醇分别反应所得化合物的发射波长依次红移,且其红移程度依赖于化合物的浓度,表现出结构和浓度依赖红移荧光特性。该方法实现了简单调控化合物的结构和浓度得到长波长的非传统有机荧光化合物,这为设计长波长非传统荧光材料提供了新的方法和思路。

高功率1550 nm氧化限制型VCSEL设计与仿真

1550 nm垂直腔面发射激光器具有良好的人眼安全性和透射性,但实现其高效率和高功率输出一直是难以解决的问题。以1550 nm氧化限制型垂直腔面发射激光器为研究目标,对不同结构、不同氧化孔径与输出特性关系进行仿真分析。随着氧化孔径增加,垂直腔面发射激光器芯片的激射波长发生红移现象,但氧化孔径从14μm继续增大时,激射波长几乎不红移。对两种不同氧化限制结构的芯片进行仿真,输出功率和转换效率对比结果表明单氧化层结构性能更好。在设计多结垂直腔面发射激光器时考虑有源区之间是否增加氧化层,最终发现两种氧化限制结构均在9μm孔径时具有较高的输出功率,单层结构100 mA时的输出功率约为177.55 mW,同时斜率效率也高达1.79 W/A,最大功率转换效率为10μm孔径时的37.7%,多层结构斜率效率更高达2.36 W/A。氧化限制型结构在多结垂直腔面发射激光器基础上进一步提升功率、效率等参数,可为高功率1550 nm垂直腔面发射激光器的输出特性优化提供参考。

一种大斯托克斯位移的红光发射荧光探针选择性检测次氯酸

设计、合成了一种基于巴比妥酸衍生物的具有D-π-A结构的光学探针3。该探针能够作为一种高度灵敏和选择性的次氯酸指示剂,快速实现对次氯酸的比色和荧光信号(开-关)的双响应(约15 s)。推测的响应机制是ClO-与C=C之间发生了亲电加成和氧化裂解反应,导致探针的D-π-A结构遭到破坏,从而阻断了其分子内电荷转移(intramolecular charge transfer,ICT)进程。探针只需一步即可合成,同时具有红光发射(628 nm)和较大的斯托克斯位移(158 nm),检测限(limit of detection,LOD)低至14 nmol·L^(-1)。此外,探针还表现出低细胞毒性,并成功应用于活细胞成像。

Thickness Dependent Behavior of Photoluminescence of Tris(8-hydroxyquinoline)Aluminum Film

In situ thickness dependent photoluminescence （PL） measurements of tris（8-hydroxyquinoline） aluminum（Alq3） film were performed. At the beginning of Alq3 deposition on the glass substrate, the Alq3 emission showed a sharp red-shift. Further deposition of Alq3 resulted slight red-shift, and finally tended to saturated value. The total red-shift of about 12 nm was observed for the Alq3 film thickness range from 2 to 500 nm.This red-shift was attributed to the change from the 2D to 3D exciton state with increasing Alq3 film thickness. Meanwhile, the PL intensity of Alq3 emission increased continuously, and showed a rate change at the initial deposition of Alq3 due to non-rediative decay of excitons arised from the interaction between excitons and the substrate, and finally tended to saturation with the Alq3 thickness.

芴与噻吩发光共聚物的合成及其电致发光性能

采用Suzuki偶合方法合成出了一系列新型的 9,9 二辛基芴 (DOF)和噻吩 (Th)的共聚物 .其中 ,DOF与Th的投料比 (摩尔比 )分别为 95∶5 (PTF5 )、90∶1 0 (PTF1 0 )、85∶1 5 (PTF1 5 )、70∶3 0 (PTF3 0 )、5 0∶5 0 (PTF5 0 ) .所有的聚合物均可溶于常用的有机溶剂 ,如THF,CHCl3等 ,其分子量在 60 0 0～ 5 3 0 0 0之间 .当在聚芴主链中引入噻吩后 ,其发光波长发生了红移 ,最大发光波长由PTF5时的 490nm红移到PTF5 0时的 5 41nm .随着聚芴主链中噻吩含量的增加 ,最大电致发光和光致发光效率都逐渐降低 由这些聚合物所制得的器件 ,最大电致发光效率为PTF5和PTF1 0的 0 45 %.由此表明 。

半导体激光器输出波长随工作电流变化的实验研究

以2W连续红外(980nm)半导体激光器(InGaAs)和120mW连续红外(980nm,带制冷器与尾纤)半导体激光器(InGaAsP)为例,测量激光器输出光束的波长随工作电流变化的规律。实验结果表明:工作电流增加,光束波长向长波红移,斜率分别近似为0.374nm/100mA、0.220nm/10mA;工作电流大时的红移现象比电流小时明显。

CdTe/CdS核壳量子点与蛋白质荧光标记

利用连续离子层吸附技术合成了水溶性的CdTe/CdS核壳量子点.通过CdS壳层的包覆,量子点的量子效率由原来的15%(裸核)提高到38%(核壳),这种核壳结构量子点的化学和光学性质具有更好的稳定性,可以用于生物标记.本文采取共价连接与静电吸附两种方法,实现了量子点的生物标记,电泳技术已证明,应用这种量子点成功地实现了对蛋白质分子的生物标记.通过对量子点与蛋白质偶联前后的荧光光谱分析,发现量子点与蛋白质作用后荧光增强是由于蛋白质对量子点进行了表面修饰,从而降低了表面缺陷引起的非辐射跃迁几率所致.通过共价连接量子点的荧光峰位红移,主要是由于偶极-偶极相互作用引起的;量子点与蛋白质静电吸附作用引起的荧光峰位蓝移主要起因于量子点表面电荷量的降低.

激励光波长对乙醇溶液荧光光谱特性的影响

乙醇溶液在紫外光照射下可以发射荧光。当激励的紫外光波长在200～250nm变化时,乙醇溶液产生的荧光光谱基本相同,但峰值位置出现了明显的红移;当激励的紫外光波长相同时,随着溶液浓度的改变也将产生峰值位置的红移现象。文章从实验上对乙醇荧光峰值位置的红移规律进行了研究,并从理论上对红移现象进行了解释。研究结果有助于解释乙醇作为有机溶剂、荧光猝灭剂、食品添加剂等时对其他大分子的荧光光谱特性的影响,也将可能提供一种灵敏、快捷的乙醇含量测试方法。

萘磺酸甲醛缩合物分散剂在氟铃脲颗粒表面的吸附性能研究

采用残余质量浓度法、ζ电位仪、红外光谱(IR)和X射线光电子能谱(X-Photoelectron spectroscopy,XPS)系统地研究了萘磺酸甲醛缩合物(NNO)分散剂在氟铃脲颗粒表面的吸附量、吸附状态、ζ电位、吸附作用力、吸附层厚度等性能。结果表明:NNO在氟铃脲表面的饱和吸附量、Langmuir吸附平衡常数k和ζ电位均随NNO相对分子质量增加而增大,NNO分散剂在氟铃脲表面呈多点吸附,吸附了NNO的氟铃脲的IR谱具有明显的"红移"现象,说明氢键是分散剂NNO与氟铃脲表面结合的重要作用力,NNO在氟铃脲颗粒表面的吸附层厚度为5.97nm,分析认为,NNO在氟铃脲颗粒表面吸附后具有静电排斥和空间位阻双重作用,可以较好地维持氟铃脲悬浮剂的分散稳定性。

407 nm光诱导的红细胞荧光光谱随浓度增加红移的机理分析(英文)

用 4 0 7nm光激发不同浓度离体红细胞可以产生较强的荧光光谱 ,进一步研究发现这些荧光光谱中存在两个明显的、频谱宽度大致相等的荧光发射区 ,而且在生理盐水中随着红细胞浓度的增加 ,其发射的荧光光谱的谱峰值位置向长波方向移动 ,即出现“红移”现象 .从理论上对这种“红移”现象的产生机理进行了分析 ,表明这种现象是由于浓度变化对荧光团电子能级产生的微扰发生变化所致 .该研究结果对现代医学中的荧光光谱诊断技术和低功率激光照射疗法都有一定的参考价值 .

稀土红色荧光粉SrZnO_2:Eu^(3+)的发光性能

A series of novel luminescent materials, SrZnO2:M (M=Eu3+, or Eu3+ + Li+) have been synthesized by high-temperature solid-state reaction. The structure and luminescence properties of SrZnO2:Eu3+ phosphor were studied through XRD, photoluminescence and Raman spectroscopy. The excitation spectra show a broad intense band and a number of small peaks corresponding to the inner 4f-shell excitations of Eu3+ (the strongest one is at 395 nm for 7F0-5L6). After SrZnO2:Eu3+ phosphor was co-doped with Li+ ions, its charge transfer band extended to longer wavelengths. This resulted in increase of luminescent quantum efficiency of the sample. SrZnO2:Eu3+,Li+ phosphor can be efficiently excited by longer UV. From the fluorescence spectrum of SrZnO2:Eu3+ phosphor, apart from transition emissions of 5D0 → 7FJ (J=0~4), the transition emissions from 5D1 → 7FJ (J=0~2) have been observed. For the SrZnO2:Eu3+ phosphor, under excitation of UV, the dominant emission is at about 612 nm, due to the 5D0 → 7F2 hypersensitive transition. The incorporation of Li+ ions greatly enhanced the luminescence intensity and made emission peak from 5D0 → 7F2 transition red-shifted.

新型可溶性酞菁的合成和光致发光及电致发光性质

以3(4)-硝基邻苯二腈和对甲氧基苯酚为原料,经过两步反应合成了α(β)-四(4-甲氧基苯氧基)酞菁锌,通过谱学方法和元素分析表征了其结构.比较研究其溶液和旋涂膜的紫外可见光谱、光致发光光谱和固体薄片的光致发光光谱.并以其旋涂膜为发光层制备了电致发光器件,研究其电致发光性质.结果表明,固态酞菁材料与其溶液的荧光发射波长相比均向长波方向移动了145nm以上,而且都有不同程度的宽展.在固态下β-位取代酞菁荧光发射波长红移的程度比α-位取代酞菁大.电致发光光谱的发射波长和其旋涂膜的光致发光光谱的发射波长基本一致,大约在856和862nm左右.在固态下酞菁分子排列紧密,分子间相互作用增强导致了荧光发射波长的巨大红移.

木质素系和萘系分散剂在煤水界面的吸附性能

研究了两种木质素类分散剂SL(木质素磺酸钠)和MSSL(改性磺化碱木质素钠盐)和一种萘系分散剂(FDN)在大同煤表面的吸附量和动力学,结果表明,SL和MSSL在煤表面的吸附量远比FDN的大,但是拟合所得的Langmuir平衡常数K和吸附速率常数ka都比FDN的小,这表明SL和MSSL在煤表面的吸附能力比FDN略差,吸附速率较慢.采用IR和XPS研究了煤表面分散剂吸附层的结果表明,吸附了SL和MSSL的煤表面具有明显的'红移'现象,并且SL和MSSL在煤表面的吸附层厚度分别为7.22和4.61 nm,而FDN的吸附层厚度较小,为2.11 nm.分析认为,SL和MSSL在煤表面的吸附以氢键力为主,吸附量较大,吸附层较厚,在煤表面呈多点式吸附;FDN主要以π电子极化吸附在煤表面呈卧式吸附,吸附强度较大,吸附层较薄.