Magneto-optical Kerr and Faraday effects in bilayer antiferromagnetic insulators

Control and detection of antiferromagnetic topological materials are challenging since the total magnetization vanishes.Here we investigate the magneto-optical Kerr and Faraday effects in bilayer antiferromagnetic insulator Mn Bi2Te4.We find that by breaking the combined mirror symmetries with either perpendicular electric field or external magnetic moment,Kerr and Faraday effects occur.Under perpendicular electric field,antiferromagnetic topological insulators(AFMTI)show sharp peaks at the interband transition threshold,whereas trivial insulators show small adjacent positive and negative peaks.Gate voltage and Fermi energy can be tuned to reveal the differences between AFMTI and trivial insulators.We find that AFMTI with large antiferromagnetic order can be proposed as a pure magneto-optical rotator due to sizable Kerr(Faraday)angles and vanishing ellipticity.Under external magnetic moment,AFMTI and trivial insulators are significantly different in the magnitude of Kerr and Faraday angles and ellipticity.For the qualitative behaviors,AFMTI shows distinct features of Kerr and Faraday angles when the spin configurations of the system change.These phenomena provide new possibilities to optically detect and manipulate the layered topological antiferromagnets.

MOSSBAUER POLARIMETER AND MOSSBAUER FARADAY EFFECT

A Mossbauer polarimeter consists of a gamma ray source (polarizer), transmitter (sample to be analyzed), analyzer and automatic counting system. This equipment was used to observe the Mossbauer Faraday effect in non-stoichiometric Fe3O4. Experimental results demonstrated that electronic hopping above the Verwey temperature between Fe2+- Fe3+ ions on the octahedral sites is a only localized phenomenon and the recoilless fractions of 57Fe nuclei in Fe3-vO4 (v=0.02) are 0.71 for A sites and 0.62 for B sites, respectively.

Ramsey-CPT spectrum with the Faraday effect and its application to atomic clocks

A method that obtains the Ramsey-coherent population trapping （CPT） spectrum with the Faraday effect is investi- gated. An experiment is implemented to detect the light polarization components generated from the Faraday effect. The experimental results agree with the theoretical calculations based on the Liouville equation. By comparing with the method without using the Faraday effect, the potential of this method for a CPT-based atomic clock is assessed. The results indicate that this method should improve the short-term frequency stability by several times.

Synthesis and Faraday Effect of Fe-Al Oxide Composite Ferrofluid

A kind of ferrofluid containing Fe-Al oxide composite nanometer particles was synthesized. The ferrofluid made of Fe-Al oxide composite nanometer particles which ratio was Fe:Al2O3 = 3:1 and thermally treated at 300°C showed Faraday effect approximate linearity versus the magnetic field B, and a relatively excellent Faraday effect without saturation in varying 0 - 1.5T magnetic field, which provided a method for synthesizing the ferrofluid of Faraday rotation still continuing in a relatively high magnetic field.

LIGHT MODULATION COMBINING POCKELS EFFECT WITH FARADAY EFFECT AND ITS FUNCTIONS

With brief statements of the linear electro-optical modulation and magnetooptical modulation, using the method of resultant of optical amplitude vectors and the methed of Jones matrix, formulas for intensity of transmitted light through the optical analyzer of various composition of electro-optical effect with magneto-optical effect are derived. The results show that the output beam from the analyzer carries information on current (or magnetic field), voltage (or electric field), active power and apparent power. When the light beam transmitted through the analyzer are transformed into electric signals, three kinds of information are included: the DC term corresponding to an active power, the term with frequency ω(50 Hz) corresponding to current or voltage, and the term with frequency 2ω(100 Hz) corresponding to an apparnt power.So, we can use the electric filter circuit to pick out the DC component for measuring active power; to pick out the component with frequency ω(50 Hz) for measuring current or voltage; and to pick out the component with frequency 2ω(100 Hz) for measuring apparent power. The paper discusses what quantities are measured when the analyzer is set on certain definite values, and ponts out the optimum selection for various measurements.

Tb^(3+)掺杂Faraday磁光玻璃的研究进展

Tb3+ 掺杂Faraday磁光玻璃是一种新型的功能材料 ,在光纤通信和传感领域有广阔的应用前景。综合介绍了磁光玻璃Faraday效应的基本原理。Tb3+ 掺杂Faraday磁光玻璃的Verdet常数是电子有效跃迁波长λt,有效跃迁几率Ct,单位体积内的顺磁离子数N和绝对温度T等参数的函数 ,同时还受到基质玻璃的影响。虽然Verdet常数越大 ,磁光效应的灵敏度越高 。

基于Faraday效应的光纤陀螺频率特性评估方法

由于角振动台的振动频率有限,无法实现光纤陀螺的高带宽测试。提出了基于Faraday效应的光纤陀螺频率特性评估方法,采用正弦电流激励下的Faraday相位差等效Sagnac相位差,解决了激励信号输出频率有限的问题。根据光纤中的Faraday效应原理,分析了该评估方法与光纤陀螺角振动台测试方法的等效性;搭建了评估系统,使用该评估系统来模拟某型号光纤陀螺的信号处理过程,进行等效评估实验,得到了等效评估的光纤陀螺闭环带宽为9 kHz,实现了高带宽光纤陀螺的频率特性评估测试,为改善光纤陀螺的动态特性提供了有效的验证平台。

Dy_(2)Zr_(2)O_(7)磁光透明陶瓷的制备及法拉第效应

以自制的Dy_(2)O_(3)超细粉与市售的ZrO_(2)粉料为主要原料,经球磨混合后通过高温固相反应合成了平均粒径约为150 nm的Dy_(2)Zr_(2)O_(7)粉体,再经过冷等静压成型和真空烧结获得了Dy_(2)Zr_(2)O_(7)磁光透明陶瓷。研究表明,该陶瓷样品具有典型的缺陷萤石结构,在635 nm波长处的直线透过率约为68%,达到了理论透过率的88%。Dy_(2)Zr_(2)O_(7)透明陶瓷在635,780,1 064 nm处的费尔德(Verdet)常数分别为(-182±7),(-118±2),(-48±1) rad·T^(-1)·m^(-1),在1 064 nm近红外波段处约为商用铽镓石榴石单晶的1.24倍,在635 nm可见光波段处约为铽镓石榴石单晶的1.33倍。研究结果证明Dy_(2)Zr_(2)O_(7)透明陶瓷是一种有潜力的新型磁光材料。

氟化物磁光晶体的研究进展与应用

光通信技术发展迅速,激光平均功率不断提高,磁光隔离器是保证激光单向传输、维持光学系统稳定高效工作的基础,而磁光介质作为磁光隔离器的核心部件也因此得以快速发展。首先简要介绍了几种磁光材料以及当前广泛应用的石榴石磁光晶体的缺点、法拉第效应的原理和应用,随后系统分析了作为新一代磁光晶体的各类氟化物磁光晶体的优缺点,最后展望了CeF_(3)磁光晶体潜在的应用前景以及未来氟化物磁光晶体的发展趋势。

高Verdet常数Faraday玻璃磁光理论及其应用

稀土Faraday磁光玻璃是一种光电高科技领域重要的透明光学功能材料,因其Verdet常数较大、磁光性能优异而在光纤通信和传感等领域有广阔的应用前景。本文综述了磁光玻璃Faraday效应的基本原理、影响磁光效应的因素和磁光玻璃的具体应用,总结了当前磁光玻璃研究中存在的问题。

用Faraday效应测量光学材料的色散率

介绍了利用Faraday磁致旋光性原理 ,测量光学材料色散率的方法 .此方法对Verdet常数大的光学材料来说 。

Two-dimensional investigation of characteristic parameters and their gradients for the self-generated electric and magnetic fields of laser-induced zirconium plasma

Two-dimensional diagnosis of laser-induced zirconium(Zr)plasma has been experimentally performed using the time-of-flight method by employing Faraday cups in addition to electric and magnetic probes.The characteristic parameters of laser-induced Zr plasma have been evaluated as a function of different laser irradiances ranging from 4.5 to 11.7 GW cm-2 at different axial positions of 1–4 cm with a fixed radial distance of 2 cm.A well-supporting correlation between the plume parameters and the laser-plasma-produced spontaneous electric and magnetic(E and B)fields was established.The measurements of the characteristic parameters and spontaneously induced fields were observed to have an increasing trend with the increasing laser irradiance.However,when increasing the spatial distance in both the axial and radial directions,the plasma parameters(electron/ion number density,temperature and kinetic energy)did not show either continuously increasing or decreasing trends due to various kinetic and dynamic processes during the spatial evolution of the plume.However,the E and B fields were observed to be always diffusing away from the target.The radial component of electron number densities remained higher than the axial number density component,whereas the axial ion number density at all laser irradiances and axial distances remained higher than the radial ion number density.The higher axial self-generated electric field(SGEF)values than radial SGEF values are correlated with the effective charge-separation mechanism of electrons and ions.The generation of a self-generated magnetic field is observed dominantly in the radial direction at increasing laser irradiance as compared to the axial one due to the deflection of fast-moving electrons and the persistence of two-electron temperature on the radial axis.

NO_2分子Faraday效应磁强计

采用Faraday光谱方法 ,系统研究了交流 (Zeeman调制 )、直流 (光强调制 )磁场下 ,NO2 气体分子的光谱信号随外加磁场的变化关系 .实验结果与理论分析表明 ,NO2 分子的光谱信号与外加磁场呈线性关系 ,由此提出了一种NO2 分子Faraday效应磁强计 ,预期可以测量 5× 10 - 3～ 10 0mT ,DC - 1MHz范围内的磁场 ,并具有良好的线性度 .

利用Faraday效应的激光磁共振

本文叙述了在激光磁共振实验中，利用纵向磁光旋转效应－Ｆａｍｄａｙ效应来改善信噪比，并给出了这种方法的实验结果和理论分析．实验中，利用Ｆａｒａｄａｙ效应使信噪比改善约提高一个数量级．

磁光Faraday效应的经典和量子理论描述

分别从经典电动力学和量子力学角度对磁光 Faraday效应进行描述 ,给出量子理论的计算方法 ,讨论稀土石榴石晶体中晶场和交换场的作用 ,指出产生磁光 Faraday效应的机制 .

The Influence of the Plasma Absorbing Edge on the Magneto Optic Kerr Effect in Multilayer Metallic Films

通过分析由光诱致的电荷密度涨落对铁磁／非磁性（ＦＭ／ＮＭ）金属多层膜非磁性层中费米面附近电子的交换劈裂能的影响，对ＮＭ层金属附加磁光克尔效应的频谱特性进行了理论推导和定量计算，证明ＦＭ／ＮＭ多层膜在其ＮＭ层的等离子体吸收边附近确实可能存在磁光克尔谱的增强，并讨论了有些样品没有出现这种增强峰的原因．

可穿戴设备高效自供电结构设计研究

基于法拉第电磁感应定律和压电效应原理,该文设计一款自供电可穿戴设备。该设备包括设备主体和安装于设备主体内的供电装置,供电装置包括组合发电模块、电路板、电池,组合发电模块包含线圈、强磁体及若干组压电陶瓷片,组合发电模块通过强磁体来回穿过线圈产生电动势和强磁体撞击压电陶瓷片产生电动势实现发电,线圈和压电陶瓷片均分别与电路板电连接,电路板、电池及设备主体依次电连接。该自供电可穿戴设备通过组合发电模块能够将动能转变为电能,不仅发电快而且穿戴便捷,重要的是,这种可穿戴设备可以通过自供电系统节约能源。

电离层Faraday效应对卫星通信的影响

分析电高层Faraday旋转效应对线极化卫星通信信号产生的影响，计算出了一些城市的旋转角和极化角，为线极化信号的良好匹配提供了依据。实践证明，这些计算结果是准确的。

稀土化合物Faraday效应的理论研究

以ＣｅＦ３为例，研究了晶场强度及自旋─轨道耦合对Ｖｃｒｄｅｔ常数（Ｖ）的影响，发现晶场强度在很大的范围内变化时，若温度Ｔ＞２００Ｋ，Ｖ基本上保持不变，若Ｔ＜１００Ｋ，随晶场增强，Ｖ的绝对值缓慢增大。当晶场增强到一定值时，Ｖ出现共振现象，其值显著增大并突然变号。还发现，自旋─轨道耦合强度的变化对Ｖ影响很小。当晶场或自旋─轨道耦合不存在时，Ｖ值并不趋于零，而是一有限值，这表明晶场和自旋─轨道耦合不是决定Ｆａｒａｄｎｙ旋转存在与否的关键因素。

Diode laser using narrow bandwidth interference filter at 852 nm and its application in Faraday anomalous dispersion optical filter

We demonstrate an 852-nm external cavity diode laser（ECDL） system whose wavelength is mainly determined by an interference filter instead of other wavelength selective elements. The Lorentzian linewidth measured by the heterodyne beating between two identical lasers is 28.3 k Hz. Moreover, we test the application of the ECDL in the Faraday atomic filter.Besides saturated absorption spectrum, the transmission spectrum of the Faraday atomic filter at 852 nm is measured by using the ECDL. This interference filter ECDL method can also be extended to other wavelengths and widen the application range of diode laser.