Precise measurement of a weak radio frequency electric field using a resonant atomic probe

We present a precise measurement of a weak radio frequency electric field with a frequency of ■3 GHz employing a resonant atomic probe that is constituted with a Rydberg cascade three-level atom, including a cesium ground state |6S(1/2)〉,an excited state |6P(3/2)〉, and Rydberg state |nD(5/2)〉. Two radio frequency(RF) electric fields, noted as local and signal fields, couple the nearby Rydberg transition. The two-photon resonant Rydberg electromagnetically induced transparency(Rydberg-EIT) is employed to directly read out the weak signal field having hundreds of k Hz difference between the local and signal fields that is encoded in the resonant microwave-dressed Rydberg atoms. The minimum detectable signal fields of ESmin= 1.36 ± 0.04 mV/m for 2.18 GHz coupling |68D(5/2)〉→ |69P(3/2)〉 transition and 1.33 ± 0.02 mV/m for 1.32 GHz coupling |80D(5/2)〉→ |81P(3/2)〉 transition are obtained, respectively. The bandwidth dependence is also investigated by varying the signal field frequency and corresponding -3 dB bandwidth of 3 MHz is attained. This method can be employed to perform a rapid and precise measurement of the weak electric field, which is important for the atom-based microwave metrology.

PROBE-HOLE FIELD EMISSION MICROSCOPE SYSTEM CONTROLLED BY COMPUTER

A probe-hole field emission microscope system,controlled by the Apple Ⅱ computer,has been developed and operated successfully for measuring the work function of a single crystalplane.The detection screen,the phototube and the amplifier are combined for measuring theprobe-hole current.The combination is calibrated and the calibrated data are used in the com-puter program.The high voltage on the viewing screen is adjusted by using a D/A converter.The total current and the probe-hole current are acquired by using an A/D converter.A programin BASIC is used for processing all data and the Fowler-Nordheim plot parameters are given.Work functions of single crystal planes can then be calculated;as examples,the work functionson the clean W(100)and W(111)planes are measured to be 4.67 eV and 4.45 eV,respectively.

Mapping an on-chip terahertz antenna by a scanning near-field probe and a fixed field-effect transistor

In the terahertz（THz） regime,the active region for a solid-state detector usually needs to be implemented accurately in the near-field region of an on-chip antenna.Mapping of the near-field strength could allow for rapid verification and optimization of new antenna/detector designs.Here,we report a proof-of-concept experiment in which the field mapping is realized by a scanning metallic probe and a fixed AlGaN/GaN field-effect transistor.Experiment results agree well with the electromagnetic-wave simulations.The results also suggest a field-effect THz detector combined with a probe tip could serve as a high sensitivity THz near-field sensor.

Influence of the probe-sample interaction on scanning near-field optical microscopic images in the far field

We have studied the influence of probe-sample interaction in a scanning near-field optical microscopy （SNOM） in the far field by using samples with a step structure. For a sample with a step height of - λ/4, the SNOM image contrast between the two sides of the step changes periodically at different scan heights. For a step height of-λ/2, the image contrast remains approximately the same. The probe-sample interaction determines the SNOM image contrast here. The influence of different refractive indices of the sample has been also analysed by using a simple theoretical model.

全光纤耦合式太赫兹近场探针光谱成像系统

通过对太赫兹光电导探针天线与飞秒倍频光路进行光纤模块化封装,并结合光纤耦合式太赫兹光电导天线辐射源,以及自主研制设计的光纤飞秒激光光源和光纤式高速光学延时线,开发了一种全光纤耦合式太赫兹近场探针光谱成像系统,其光谱范围覆盖0.1~2.0 THz,动态范围达到60 dB,光谱采样速度高达0.1 s/谱,近场成像分辨率优于20μm的全光纤耦合式太赫兹近场探针光谱成像系统。得益于整套系统的全光纤结构设计,太赫兹辐射源和探针式探测器之间可以根据测量需求灵活调节而不需要重新校准光路,极大地提高了系统的工作稳定性和使用方便性。该研究为太赫兹科学研究提供了一种高性能且实用性强的太赫兹近场光谱成像测量系统。

基于回波幅值信号的医用超声探头性能快速检测系统的研制

目的研制一套基于回波幅值信号的医用超声探头阵元快速检测系统,用以对超声探头性能进行评估与质量控制。方法运用现场可编程门阵列作为系统主控制芯片,以控制系统内部集成的电脉冲激励信号源,进而激励医用超声探头的阵元。阵元振动后产生超声波并在遇到空气后反射。基于超声脉冲回波测试方法,以回波幅值为主要检测参数,实现对超声探头阵元工作状态的检测与评估。结果选取同型号不同使用年限及故障状态的探头进行系统测试,并与所成超声图像进行对比:全新完好探头的回波幅值信号范围为550~575 mV,整体误差小于0.5 dB;使用1年的探头回波幅值信号范围为550~590 mV,较全新探头整体误差低0.6 dB左右;使用3年的探头回波幅值信号中存在十多个3 dB、6 dB及个别10 dB等不同程度的衰减;故障探头中存在三十多个成片连续衰减10 dB阵元。探头衰减位置及程度与所成超声图像缺损位置及程度相对应。结论本系统具有灵敏度高、稳定性好、操作简单快速等特点,在超声探头阵元性能评估方面具有很强的实际应用和推广价值。

水浸超声线聚焦探头发射声场测量方法

航空构件常用小直径棒材进行加工制造,棒材的缺陷检测成为保证构件加工和使用质量的重要手段。但水浸超声点聚焦检测柱形或球形工件时易发生声束发散,检测灵敏度低下,而水浸超声线聚焦探头作为小直径棒材曲面检测的特殊应用,其声场分布决定了探头的检测能力与检测效率,因此线聚焦探头声场测量对小直径棒材检测具有重要意义。选取三只标称频率均为10 MHz,水中焦距分别为25 mm、38 mm、60 mm以及一只探头标称频率为15 MHz,水中焦距为20 mm水浸线聚焦超声探头。分别采取大平底、Φ3.18 mm的球靶和Φ1.5 mm的钢棒作为反射体,通过三轴自动化装置带动探头运动,得到不同反射体所测量的探头声场特性参数,并对测量结果进行对比,分析线聚焦探头声场测量方法。结果表明采用钢丝调整后球靶法可得到线聚焦探头较为准确的声场分布,采用钢丝法结合球靶法能够能到线聚焦探头较为准确的声场特征参数。

实验室研究等离子体鞘套测量方法和干预技术

航天飞行器再入大气层时,由于激波加热和热化学防护材料的烧蚀等原因,会在飞行器表面形成致密的等离子体鞘套,从而造成无线电通信信号中断。因此,减轻和消除黑障对飞行器测控安全至关重要。为了解决该难题,本文针对性地发展了适用于等离子体鞘套测量的探针设备和主动干预的技术,并利用实验室等离子体进行了验证。首先,提出了一种静电-微波复合探针,基于探针和飞行器表面曲面共形的优势,可以实时、有效地探测黑障高温流场中的电子密度;进一步,发展了亲电子物质释放实验主动干预方法,地面模拟实验表明该方法可以有效地降低流场等离子体中的电子密度。

电磁近场测试平面扫描系统设计

设计了一种测量电子器件电磁场分布的近场扫描系统,用于电磁兼容测试。首先,设计了一种四层印刷电路板结构的磁场探头,其工作频率达12 GHz,空间分辨率为2 mm,仿真与实测结果吻合较好,并对探头进行了校准。其次,实现了近场扫描的自动化,采用LabVIEW设计上位机软件,STM32作为运动控制核心,通过串口接收上位机数据,并控制步进电机带动探头移动,实现定点扫描,上位机通过局域网与矢量网络分析仪实现通信,完成数据的读取与保存。最后,通过上位机对数据进行可视化处理,在扫描完成时对结果进行校准,并实时生成被测物体的场强分布图,实现电磁场分布数据可视化。场强测试结果与电磁仿真结果吻合较好,可用于分析电磁耦合路径及实现近场与远场的转换。

直流电弧等离子体炬数值模拟与诊断

直流电弧等离子体炬内部物理过程复杂且具动态性,较难对其进行准确描述与深入研究,且其工作温度较高,其状态参数难以使用常规方式测量。针对直流电弧等离子体炬,建立流动、传热和电磁相互耦合的数值模型,基于Fluent软件对直流电弧等离子体炬进行三维数值模拟和特性分析,设计并搭建了一套热焓探针实验系统,完成对直流电弧等离子体炬射流参数的测量分析。结果表明:建立的数值模型模拟结果与实验测量结果吻合较好,误差在10%以内;炬内温度与速度最大值与工作气流量呈正相关,均出现在靠近阴极区域,且沿轴线逐渐降低;等离子体炬内高温区与高电流密度区重合。

探针结构对Ti/CuO微波点火延迟时间的影响

为了研究探针结构对微波点火性能的影响,使用4种探针对Ti/CuO点火药的微波点火延迟时间进行了测试,并通过模拟对探针结构进行优化,获得了探针参数(长度、包覆层厚度、尖端锥度和镀层厚度)对电场强度的影响规律。结果表明,探针针尖处的电场强度显著影响点火延迟时间,在2.45 GHz、50 W微波作用下,探针1、2、3、4最大电场分别为1800、190、34和53 kV/m,Ti/CuO的点火延迟时间分别为222.6、660.5、949.1和921.3 ms;在2.45 GHz、1 W微波作用下,当探针长度为26 mm、PTFE包覆层长度为8 mm、厚度为0.75 mm、针尖锥度为0.243和金镀层厚度为5μm时,能够将电场强度从原来的约10 kV/m提升到约1000 kV/m,并且电场分布集中于尖端。

赣南斑岩锡矿田云英岩型锂矿中锂的赋存状态研究

云英岩型锂矿作为近年来新的锂矿类型,具有重要的理论研究和经济价值。然而,在中国南岭及其周缘世界级的钨锡成矿省中,伴生云英岩型锂矿化的综合评价却稍显不足。本课题组在赣南岩背斑岩锡矿田新发现了云英岩型的锂矿,矿体产于密坑山岩体与上覆鸡笼嶂组火山岩的接触带附近的云英岩带内,发育三种矿化类型:云英岩带型和花岗岩、火山岩内的含锂云母-石英脉型。矿体中Li_(2)O的含量最高可达1.04%,主要集中于0.2%~0.3%,具有显著的综合利用价值。为了确定云英岩型锂矿中Li的赋存状态及Li、Sn之间的关系等特征,本文开展了详细的镜下观察,扫描电镜、电子探针和LA-ICP-MS分析,确定了岩背矿田不同于国内外其他典型云英岩型锂矿床大量发育锂云母-铁锂云母系列,其Li载体矿物主要为黑鳞云母,具有高Si、Al、K、Fe、Li的特征,且未经历极端的流体分异演化过程。Li的成矿主要与矿区含斑细粒花岗岩有关,在岩浆晚期高温热液阶段与Sn共同富集,并以Si^(4+)+Li^(+)←→Al^(Ⅳ)+Fe^(T)耦合类质同象形式进入云母。

近场扫描技术中探头校准与源重构算法

随着通信技术的发展,电子设备的工作频率不断提高,同时设备自身的尺寸和间距也不断减小。微型化和高集成化带来了日益严重的电磁干扰问题。而传统的电磁干扰诊断方案效率低、精度差。近场扫描技术的出现和发展为分析和解决电子设备电磁干扰问题提供了有效方案,近场探头和源重构方法分别作为近场扫描技术的核心器件和主要算法,日益受到广泛的关注和研究。文章从介绍近场扫描技术、近场探头设计与校准和源重构算法的基本概念出发,概括总结这三个方面国内外的研究动态,并分析了当前研究存在的主要问题和机遇,旨在为近场扫描技术解决电磁干扰问题提供参考。

Characteristics of the SOL ion-to-electron temperature ratio on the J-TEXT tokamak with different plasma configurations

Accurate measurement of the average plasma parameters in the edge region,including the temperature and density of electrons and ions,is critical for understanding the characteristics of the scrape-off layer(SOL) and divertor plasma transport in magnetically confined fusion research.On the J-TEXT tokamak,a multi-channel retarding field analyzer(RFA) probe has been developed to study average plasma parameters in the edge region under various poloidal divertor and island divertor configurations.The edge radial profile of the ion-to-electron temperature ratio,τ_(i/e),has been determined,which gradually decreases as the SOL ion self-collisionality,v_(SOL)*,increases.This is broadly consistent with what has been observed previously from various tokamak experiments.However,the comparison of experimental results under different configurations shows that in the poloidal divertor configuration,even under the same v_(SOL)*,τ_(i/e) in the SOL region becomes smaller as the distance from the X-point to the target plate increases.In the island divertor configuration,τ_(i/e) near the O-point is higher than that near the X-point at the same v_(SOL)*,and both are higher than those in the limiter configuration.These results suggest that the magnetic configuration plays a critical role in the energy distributions between electrons and ions at the plasma boundary.

三维原子探针的电场结构模拟研究

本文针对目前世界上被广泛使用的局部电极原子探针的样品及局部电极几何结构,通过有限元方法,结合多物理场仿真技术,研究了局部电极与针状样品的距离z、样品尖端曲率半径ρ、局部电极的入口直径φ、厚度w、开口角度α和入口长度h等参数对样品尖端附近的局部电场的影响。模拟结果表明:当z与φ的取值满足z/φ≥1时,既能在样品尖端得到较高的蒸发电场强度,又能降低局部电极对离子轨迹的影响;局部电极的厚度w和开口角度α的取值对样品尖端的电场影响较小;增大局部电极入口长度h的值有利于提高样品尖端电场强度;随着原子的蒸发(样品尖端曲率半径ρ增大),为维持原子蒸发所需的电场强度,施加在样品上的电压V与样品尖端的曲率半径ρ成正比,且所需维持的电场强度越高,施加的电压V越大。

相控阵校准技术中的探头距离误差分析

基于口径场反演的相控阵校准技术,开展探头与待测天线距离误差对校准精度的影响研究。在理论上对引入的误差进行泰勒展开,分析误差项对幅相校准的影响,当略去高阶项时,得到距离误差控制在十分之一波长范围内,可保证其校准精度,并通过仿真设计验证了该理论分析结果的正确性,可为相关相控阵天线诊断和校准提供依据。

亚跨声速风洞短轴探管速度场校测可行性研究与验证

根据GJB1179A-2012《低速和高速风洞流场品质要求》规定,速度场校测是风洞流场校测的关键项目,是评价风洞是否具备开展型号试验能力的重要依据。轴探管是用于亚跨声速风洞速度场校测的通用校测仪器。为了降低轴探管对流场的扰动,并在试验段内产生无干扰的流场,一般要求堵塞度不超过0.5%,头锥位于风洞收缩段内。近年来,随着国内2 m量级以上的大型跨声速风洞立项建设,传统的轴探管设计方案在制造、安装以及校测等方面都存在一定的困难。针对该问题,通过对轴探管头部气动外形以及安装位置的优化,削弱了轴探管头锥激波强度和扰动范围,发挥试验段加速区的消波能力,在试验段内产生了与传统长轴探管一致的无干扰流场,大大缩短了轴探管的长度,为大型跨声速风洞速度场校测的轴探管设计提供了一种可行的技术方案。

福建梅仙铅锌矿田磁铁矿成因类型与指示意义

梅仙铅锌矿田为闽中地区的大型铅锌矿集区,矿床成矿年代与成因类型尚有争议。梅仙铅锌矿石中普遍发育磁铁矿,通过电子探针分析磁铁矿成分特征,判别其成因类型,对矿床成矿过程进行约束。研究表明,铅锌矿石中磁铁矿成矿可分为3个阶段,不同阶段磁铁矿主量与微量元素含量差异明显;微量元素地球化学特征指示第一阶段磁铁矿属于喷流沉积成因,第二、三阶段磁铁矿为矽卡岩型;不同阶段磁铁矿的成因类型反映了梅仙矿田多期次岩浆活动与成矿作用的特征。

近场微波显微镜的应用

近场扫描微波显微镜因具有强大的穿透能力和无损检测优势,已成为微纳尺度下表征材料电磁特性的重要工具.本文首先介绍了近场扫描微波显微镜的结构原理、探头仿真优化以及图像倾斜修正方法.然后,阐述了近场扫描微波显微镜测量样品局域高频电导率和介电常量的方法.最后,重点探讨了近场扫描微波显微镜在材料和生物等领域的应用,详细分析了所获取的点扫描图、线扫描图和面扫描图.本文旨在帮助读者更深入地了解近场扫描微波显微镜的现状及其未来应用前景.

Particle Velocity Sensor and Its Application in Near-Field Noise Scanning Measurement

The Particle Velocity Sensor (PVS) is a kind of acoustic transducer which measures the particle velocity directly with figure-of-eight directivity. This paper proposes a near-field noise scanning technology based on the research of PVS, pressure-particle velocity (P-U) probe, and its application in noise source identification. Firstly, the principle and characteristics of PVS are presented. Secondly, a P-U probe is designed on the basis of PVS development. Finally, the noise measurement experiment for a single source is arranged and conducted. The result shows that the proposed P-U probe performs well in near-field noise source identification and localization.