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采用三支节液态调配器使离子回旋加热(ICRH)天线系统达到阻抗匹配,在阻抗匹配的条件下结合频率调制技术来减小由天线输入阻抗变化所引起的反射功率。数值模拟了频率调制前后天线负载与反射系数的变化关系,用来验证频率调制对ICRH天线中阻抗匹配装置的影响。模拟结果表明:三支节液态调配器结合频率调制方法,能更好地降低天线传输系统的反射系数,使得发射机的功率通过天线辐射更加有效地耦合到等离子体中去。     

EAST 装置离子回旋加热液态阻抗匹配系统的研究

介绍了EAST 装置离子回旋加热系统中的两种实现阻抗匹配的方式, 用三支节液态调配器取代传统的滑竿式三支节调配器和用液态相移器与单支节液态调配器相结合组成液态阻抗匹配系统。通过对液态阻抗匹配系统的分析, 表明这两种方式都能够较好地实现阻抗匹配。     

边带非对称性对调制转移光谱中心频率的影响

调制转移光谱技术广泛应用于高精度激光稳频,而调制边带的非对称性会引起调制转移光谱谱线中心过零点的频移,从而影响稳频定性及复现性.从密度矩阵运动方程出发,导出非对称边带的调制转移光谱线型公式.以此线型公式为基础,从理论上举例讨论了几种因素对稳频的影响,并模拟计算了谱线中心频移与边带非对称程度的关系. 关键词：     

光纤频率调制光谱技术中残余幅度调制特性的研究

频率调制光谱(FMS)技术不仅可以用来同时测量原子和分子的吸收和色散,还是噪声免疫腔增强光外差分子光谱(NICE-OHMS)的关键技术,由于光纤器件的引入或光源输出光的偏振态不稳定等因素会诱发残余幅度调制(RAM),RAM的产生使得FMS技术在痕量气体检测中的应用受到极大的限制,因此研究光纤FMS中RAM的特性具有非常重要的意义。研究首先通过理论分析了无吸收时的FMS信号的线型及RAM的影响因素,实验测量无吸收时输入偏振方向和输出偏振方向及电光调制器(EOM)温度对光纤FMS中RAM的影响,均与RAM存在线型关系,验证了理论分析结果,并为RAM的抑制工作以及基于RAM的其他应用提供了依据。     

电光调制器低频控制对受残余幅度调制影响的频率调制光谱线型优化研究

频率调制(FM)光谱技术中由于激光偏振态变化产生的残余幅度调制(RAM)使其在微量气体检测中的应用受到极大的限制。理论上详细分析了这一过程产生的原因,获得了存在RAM时FM光谱线型的表达式,同时给出N.C.Wong和J.L.Hall(W-H)方案抑制RAM后的FM光谱线型表达式;在实验上通过对乙炔气体的测量获得了存在RAM时的光谱线型,同时采用W-H方案对RAM进行了抑制,并获得了优化的光谱线型;最后基于理论结果对实验线型进行了拟合,两者差值小于信号峰峰值的4%。     

电光调制器输入端光纤温度对光纤频率调制光谱影响的研究

激光光谱技术由于其高灵敏、高分辨、可在线检测等优点被广泛的应用与痕量气体探测领域,而频率调制光谱(FMS)技术由于其除了探测灵敏度高的优点外且可同时探测气体样品的吸收和色散,通常还被应用于原子分子物理、量子光学等领域。发展全光纤FMS可以在保持气体探测灵敏度的同时有效简化实验装置,然而FMS是一项偏振态敏感技术,光纤温度变化等引起不适当的偏振态变化会诱发残余幅度调制(RAM),该RAM不仅使FMS线型扭曲,同时对其色散信号产生直流偏置,因此研究光纤温度对RAM特性的影响具有非常重要的意义。研究首先通过理论和实验验证了相位可控波片模型解释保偏光纤特性的可行性,然后实验测量了进入电光调制器(EOM)前保偏光纤温度对RAM的影响,发现由RAM引起的色散光谱直流偏置随温度呈正弦变化,且在24和26.8 ℃时直流偏置为零,即无RAM的状态,然而基于温度的直接RAM消除无法替代Wong-Hall提出的伺服反馈控制来实现其长期抑制,这种温度诱发RAM的变化也是所有FMS色散信号背景漂移的主要原因。     

频率调制强吸收光谱中残余幅度调制的理论分析

由电光调制器(EOM)中双折射效应及线偏光不完全沿EOM调制方向诱发的残余幅度调制(RAM)使频率调制(FM)光谱技术在微量气体检测中的应用受到极大的限制。基于光场与晶体相互作用及光学干涉原理推导出存在RAM时FM光谱的线型表达式,确定出输入线偏光角度、EOM中双折射效应、FM系数等是影响线型的主要因素,且当入射EOM光的偏振角度偏离调制方向越大,双折射效应引起的特征偏振方向相位差越大,线型扭曲越严重;同时在FM色散光谱中存在一个受两者影响的直流偏置;最后给出通过伺服控制这两过程可以达到抑制RAM的目的。这些现象及线型的分析将为基于光纤器件的FM光谱提供必要的理论支持。     

三能级A-系统探测光的频率调制效应研究

研究了三能级A-系统探测光的频率调制效应.从经典电子运动方程着手得到介质的极化率;从量子角度出发,应用Bessel函数将频率调制项展开,研究探测光频率调制对系统的影响.适当调节探测光频率和调制系数,得到系统粒子数随时间周期变化的结论.还得到系统处于稳态时探测光对应的极化率.     

二次偏振调制测距系统中调制频率与测距精度的关系

本文在基于二次偏振调制激光测距系统的基础上, 对调制频率与激光测距系统精度的关系做了深入的理论推导和实验验证. 最终得出结论: 相位法激光测距系统的测量精度会随着调制频率的增大而提高, 且精度的提高程度正比于调制频率的不确定度Δf与测程范围内半波长数N值的比值. 并通过选取合适的调制频率来提高系统的测距精度, 提高后的测距精度可达10^-7.     

三能级Λ-系统探测光的频率调制效应研究

研究了三能级Λ系统探测光的频率调制效应. 从经典电子运动方程着手得到介质的极化率；从量子角度出发，应用Bessel函数将频率调制项展开，研究探测光频率调制对系统的影响. 适当调节探测光频率和调制系数，得到系统粒子数随时间周期变化的结论. 还得到系统处于稳态时探测光对应的极化率.     

Nonequivalent spectra of unpaired electrons in field and frequency modulation

We report a difference in the spectral lineshapes of continuous-wave (CW) electron paramagnetic resonance (EPR) spectroscopy between field and frequency modulation. This finding addresses the long-standing question of the effect of modulation in EPR absorption. We compared the first-derivative EPR spectra at 1.1 GHz for lithium phthalocyanine crystals, which have a single narrow linewidth in the EPR absorption spectrum, using field and frequency modulation. The experimental findings suggest that unpaired electrons have different behaviors under perturbation due to field and frequency modulation.     

Receiver structure and estimation of the modulation index for tamed frequency modulated (TFM) signals

Tamed frequency modulation (TFM) is a spectrally efficient constant amplitude continuous phase modulation (CPM) scheme which can be simply realized by using a frequency modulator (FM). In the implementation the modulation index of TFM is calibrated to have a nominal value of 0.5, but due to temperature variations it can drift causing time varying phase jitter. In this paper we present novel algorithms and performance results to measure and control the modulation index in a coherent receiver based on the joint reduced state sequence detector (RSSD) and per-survivor processing (PSP) carrier phase estimation. The modulation index estimator measures phase transitions in the receiver and derives estimates by comparing the result to the coding rule of the TFM signal. The estimator has acquisition and tracking ability, and the current estimate can be used to replace the nominal index value. Our simulation results show that the proposed coherent receiver with the novel modulation index estimator has less than 1 dB performance degradation compared to around 4.5 dB exploiting only the PSP carrier phase estimation.     

Detection of electron paramagnetic resonance absorption using frequency modulation

A frequency modulation (FM) method was developed to measure electron paramagnetic resonance (EPR) absorption. The first-derivative spectrum of 1,1-diphenyl-2-picrylhydrazyl (DPPH) powder was measured with this FM method. Frequency modulation of up to 1.6 MHz (peak-to-peak) was achieved at a microwave carrier frequency of 1.1 GHz. This corresponds to a magnetic field modulation of 57microT (peak-to-peak) at 40.3 mT. By using a tunable microwave resonator and automatic control systems, we achieved a practical continuous-wave (CW) EPR spectrometer that incorporates the FM method. In the present experiments, the EPR signal intensity was proportional to the magnitude of frequency modulation. The background signal at the modulation frequency (1 kHz) for EPR detection was also proportional to the magnitude of frequency modulation. An automatic matching control (AMC) system reduced the amplitude of noise in microwave detection and improved the baseline stability. Distortion of the spectral lineshape was seen when the spectrometer settings were not appropriate, e.g., with a lack of the open-loop gain in automatic tuning control (ATC). FM is an alternative to field modulation when the side-effect of field modulation is detrimental for EPR detection. The present spectroscopic technique based on the FM scheme is useful for measuring the first derivative with respect to the microwave frequency in investigations of electron-spin-related phenomena.     

托卡马克中ICRH天线的优化设计

采用等离子体平板模型和三维天线模型数值模拟了托卡马克中ICRH天线与等离子体的耦合过程, 模拟结果表明在其它实验条件相同的条件下,与反对称电流和馈线端长度短的天线相比,对称电流分布和馈线端长度长的发射天线可获得更有效的功率耦合。     

Microwave frequency modulation in continuous-wave far-infrared ESR utilizing a quasi-optical reflection bridge

We report the development of the frequency-modulation (FM) method for measuring electron spin resonance (ESR) absorption in the 210- to 420GHz frequency range. We demonstrate that using a high-frequency ESR spectrometer without resonating microwave components enables us to overcome technical difficulties associated with the FM method due to nonlinear microwave-elements, without sacrificing spectrometer performance. FM was achieved by modulating the reference oscillator of a 13GHz Phase-Locked Dielectric Resonator Oscillator, and amplifying and frequency-multiplying the resulting millimeter-wave radiation up to 210, 315 and 420GHz. ESR spectra were obtained in reflection mode by a lock-in detection at the fundamental modulation frequency, and also at the second and third harmonic. Sensitivity of the setup was verified by conduction electron spin resonance measurement in KC60.     

EAST装置离子回旋加热天线电流带热结构分析

介绍了EAST装置新型离子回旋加热(ICRH)天线电流带的设计结构。通过对电流带实际工况的计算得出电流带的工作温度分布,以此来模拟实际工作条件下电流带的热载荷承受能力以及对电流带结构的影响。论证了在实际工况热载荷条件(0.2MW)下,电流带辐射面温度及电流带整体结构强度满足设计要求。     

Microwave frequency modulation in CW EPR at W-band using a loop-gap resonator

Loop-gap resonator (LGR) technology has been extended to W-band (94GHz). One output of a multiarm Q-band (35GHz) EPR bridge was translated to W-band for sample irradiation by mixing with 59 GHz; similarly, the EPR signal was translated back to Q-band for detection. A cavity resonant in the cylindrical TE011 mode suitable for use with 100 kHz field modulation has also been developed. Results using microwave frequency modulation (FM) at 50 kHz as an alternative to magnetic field modulation are described. FM was accomplished by modulating a varactor coupled to the 59 GHz oscillator. A spin-label study of sensitivity was performed under conditions of overmodulation and gamma2H1(2)T1T2<1. EPR spectra were obtained, both absorption and dispersion, by lock-in detection at the fundamental modulation frequency (50 kHz), and also at the second and third harmonics (100 and 150 kHz). Source noise was deleterious in first harmonic spectra, but was very low in second and third harmonic spectra. First harmonic microwave FM was transferred to microwave modulation at second and third harmonics by the spins, thus satisfying the "transfer of modulation" principle. The loaded Q-value of the LGR with sample was 90 (i.e., a bandwidth between 3 dB points of about 1 GHz), the resonator efficiency parameter was calculated to be 9.3 G at one W incident power, and the frequency deviation was 11.3 MHz p-p, which is equivalent to a field modulation amplitude of 4 G. W-band EPR using an LGR is a favorable configuration for microwave FM experiments.