基于频域信息交换的随机共振研究

针对经典随机共振检测大参数信号的困难,提出了基于频域信息交换的随机共振方法,并根据相移的单边带信号调制理论阐述了频域信息交换的随机共振机理.为了克服变尺度随机共振采样频比的制约,给出了基于变尺度频域信息交换的随机共振信号检测方法.数值模拟和信号检测性能分析表明,基于变尺度频域信息交换的随机共振方法具有更有效的采样频比,更便于工程实际的应用.     

二次采样随机共振频谱研究与应用初探

研究了双稳系统随机共振频谱的洛伦兹分布特征，得出在谱分布能量较集中的低频区才能产生可辨识的随机共振谱峰. 探讨了大参数信号双稳系统的二次采样随机共振的频谱特性. 以强噪声中弱信号的检测为实例，阐述了二次采样随机共振技术的具体应用. 关键词： 随机共振 二次采样随机共振 双稳系统 频谱     

基于Kramers逃逸速率的调参随机共振机理

根据Kramers逃逸速率的特性，阐明了随机共振信号的频率被限制在Kramers逃逸速率极限值一半的范围内，这种限制是制约大频率信号产生随机共振的原因.在进一步揭示二次采样随机共振频率尺度变换机理的基础上，证明了二次采样频率尺度可以把任意信号频率映射变换到随机共振频率尺度上的结论.相对于二次采样变换方法，由于双稳系统参数的调节很难使Kramers逃逸速率的一半达到实际信号的大频率，因此系统参数只能在随机共振的小参数频率范围内调节来实现随机共振. 关键词： 双稳随机共振 二次采样频率变换 系统参数调节 Kramers逃逸速率     

水浸超声检测的平面波频域快速成像算法

给出了一种基于一步相移法的水浸超声检测快速频域算法,以适用于液浸式相控阵成像。通过在阵列信号频域乘以相移因子,将阵列虚拟延拓至水浸工件表面,再进行单介质频域成像。相比时域延时叠加算法,节省了计算界面折射点的用时。对于垂直入射平面波检测,提出一种网格匹配的方法,通过调整傅里叶变换的点数,使阵列信号频域和图像频域的采样网格相重合,有效地减少了频域插值误差和伪像,进一步降低了运算次数.实验结果表明,网格匹配频域算法的运算次数仅为时域平面波算法的1/60,为水浸式超声实时检测提供了一种可行方案。      

非下采样小波变换红外光谱数据去噪

为了降低噪声对实测红外光谱信号的影响,引入了一种非下采样小波变换的红外光谱数据去噪方法。采用非下采样小波变换对原始光谱信号进行多尺度分解,提取信号的多尺度细节特征;根据光谱信号和噪声在不同尺度上的差异,通过应用变分偏微分方程方法调整分解后的各子带系数;重构各子带就可以将原始光谱信号中真实信号和噪声分离,从而达到剔除噪声的目的。通过两组实验对比传统小波和该方法针对红外光谱数据的消噪效果,实验结果表明:非下采样小波变换在红外光谱数据去噪方面具有明显的优势,不仅能够有效地去除噪声,很好地保持信号的形状,并且均方误差较小;在实际的红外光谱数据处理中能够获得较好的去噪效果。     

光谱仪动态采样时间特性的研究

在实时传输的光谱仪数据采样中,通常存在采样时间间隔不等的现象,这使得实时传输光谱仪在一些特殊场合的应用受到较大的限制,如在预测能力更强,检测精度更高的动态光谱分析法中。而恰恰在动态光谱法等时间分辨光谱分析中对光谱信号的采样定时特性要求更高,时间间隔不等会直接影响光谱分析的结果,得到失真的结论。同时与一般采样所不同的是,光谱仪是一定时间的积分采样,这无形中增加了对光谱仪定时采样特性研究的难度。因此,巧妙地利用锯齿波的幅值与时间存在一线性编码的关系,对某一型号的光谱仪进行采样时间及采样时间间隔的测试与分析,测试表明采样时间与积分时间的设置相关,同时时间间隔与积分时间也息息相关,进一步探究了该型号光谱仪在不同积分时间下采样时间间隔波动的范围。研究对注重光谱时间特性的分析法提供积分时间选取的参考依据,同时也提出了一种评估动态时间特性的方法,有利于光谱的动态特性的评估与应用。     

二次采样用于随机共振从强噪声中提取弱信号的数值研究

提出了二次采样的随机共振(SR)技术，并利用该技术，实现了绝热近似理论在大参数条件下，从强噪声中提取弱信号的目标.为便于应用，研究了二次采样随机共振方法在弱信号检测中相关参数之间的关联性.数值分析表明，该法在信号分析方面有着潜在的应用价值，有望将来应用于实测信号的数据处理. 关键词： 随机共振 弱信号检测 数值分析 非线性系统     

脱粘界面超声检测信号的小波多分辨率分析与重构

针对钢－橡胶分层粘接结构的超声检测回波信号,利用小波变换的多分辨率时频特性提出了小波特征参数提取算法,据此在对检测信号进行的时间－尺度分布分析基础上,重构出脱粘界面回波信号的时域和频域特征。实验检测结果表明本文方法在现代工业ＮＤＴ＆Ｅ中的应用有着可喜的前景。     

频域稀疏采样和激光成像方法

激光的单色性和自然图像频谱稀疏且集中在低频区间的特点,使图像频谱稀疏采样成像成为可能.基于小规模激光探测器,引入参考激光,本文提出了频域稀疏采样激光成像方法.介绍了频域稀疏采样激光成像的原理和成像系统结构,推导了激光回波重构复频谱的表达式,给出了重构频谱和复图像的仿真结果并分析了信号参数对重构效果的影响,同时采用相干系数、均方误差和结构相似度来评价其重构效果.规模为256×256的激光回波复图像仿真表明, 5个拼接1/4×1/4规模频域探测器组成的近似十字型稀疏采样结构,在约31.25%(5/16)的频域稀疏采样条件下,仍可获得较好的重构频谱和重构复图像.     

基于FPGA的随机脉冲快速捕捉系统的设计与实现

为了克服传统信号采集技术在随机信号采集领域所面临的问题，设计开发基于FPGA的随机脉冲快速捕捉系统。该系统能够在整个时域范围内对被检测信号进行高速的连续采样，在采样的同时对数据进行并行处理，只提取和保存有用的特征信号。在没有特征信号出现的情况下，采样过程可以无限延续而不产生存储器溢出，很好地符合了随机脉冲信号的特征。整个采集、处理过程完全由硬件电路实现，不需要程序干涉，具有很高的采样效率和稳定性。     

针对磁共振射频脉冲的时频域分析方法比较研究

射频脉冲可实现样本自旋体系的精确操控,进而产生预期的核磁共振(NMR)信号,在NMR信号产生过程中扮演重要角色.该文分别采用短时傅里叶变换(STFT)、连续小波变换(CWT)和维格纳-威利分布(WVD)几种时频域分析方法对射频脉冲(优化形状脉冲)进行特性分析和比较.结果表明,三种方法各自具有优缺点,结合各自优势对射频脉冲进行各种方法分析,可以更好地理解复杂脉冲的幅度、相位特性在时频域的分布情况.该文的研究方法将为直观理解复杂射频脉冲对自旋体系的作用机制提供参考.     

独立调谐微波电子枪耦合结构的仿真及测试（英）

精确的功率耦合结构设计是保证高品质束流的关键。为确保系统实际运行中的独立调谐微波电子枪耦合性能满足设计要求，对其进行了仿真与测试。首先应用电磁仿真软件CST对电子枪进行了频域和本征模式的仿真计算，两种方法计算结果吻合，谐振频率分别为2 856.10 MHz和2 856.07 MHz，耦合系数分别为1.624和1.620。同时，对已经安装在加速器上实际运行的电子枪分别采用反射系数法与腔体损耗法进行了耦合性能的测试。单点的反射系数法测得耦合系数为1.78，谐振频率为2 855.77 MHz。在此谐振点上，结合反射系数法和腔体损耗法进行多点拟合，测得耦合系数为1.785。结果表明，仿真计算结果与实际测试的结果基本相符。     

Impact of interferometer delay time on the performance of ODSB-SC RoF system with wavelength interleaving

In this paper, we investigate the impact of interferometer delay time in a 5 Gb/s optical double sideband-suppressed carrier (ODSB-SC) RoF system transmitting two wavelength interleaved radio frequency (RF) signals at 10 and 15 GHz over an optical fiber. Here, an optical Mach–Zehnder modulator is used for both optical carrier suppression and signal modulation. At the receiver, delay interferometer is used for the separation of RF frequency signals. We analyze the performance of the RoF system by varying the value of delay time of interferometer from 0.02 to 0.14 ns. The result shows that the RoF system performance is optimum for the time delay of 0.1 ns. Further, the optical spectrums, RF spectrums and eye diagrams of two interleaved RF signals have been compared.     

高频感应等离子体流动模型与微型电推进器流场特性分析

微型射频离子推力器具有结构简单、工作寿命长、推力动态范围大、性能调节响应灵敏等特点,是国际微电推进领域的研究热点之一.射频离子推力器电离室内的感性耦合放电等离子体特性和推力器的性能密切相关.为此,文章建立了低气压、小尺寸微型射频离子推力器电离室内感性耦合等离子体流体模型,开展了电磁场、流场、化学反应浓度场的多物理场耦合仿真分析,并研究了等离子体放电特征参数随推进剂工质气压、放电吸收功率、射频频率以及线圈匝数等因素的变化规律.结果表明,推进剂工质气压、放电吸收功率是调节微型射频离子推力器性能的主要因素,该研究为综合调控微型射频离子推力器的工作性能奠定了良好的基础.      

Error and jitter effect studies on the SLED for the BEPC Ⅱ-linac

An RF pulse compressor is a device used to convert a long RF pulse to a short one with a much higher peak RF magnitude. SLED can be regarded as the earliest RF pulse compressor to be used in large-scale linear accelerators. It has been widely studied around the world and applied in the BEPC and BEPC linac for many years. During routine operation, error and jitter effects will deteriorate the performance of SLED, either on the output electromagnetic wave amplitude or phase. The error effects mainly include the frequency drift induced by cooling water temperature variation and the frequency/Q 0 /β unbalances between the two energy storage cavities caused by mechanical fabrication or microwave tuning. The jitter effects refer to the PSK switching phase and time jitters. In this paper, we re-derive the generalized formulae for the conventional SLED used in the BEPC linac, and the error and jitter effects on SLED performance are also investigated.     

Single-longitudinal-mode,narrow-linewidth oscillation from a high-Q photonic-electronic hybrid cavity

We propose a high-Q photonic-electronic hybrid cavity for single-longitudinal-mode narrow-linewidth oscillation, where part of the cavity is in the radio frequency(RF) domain by a pair of frequency conversions. In the RF part, we can easily achieve MHz filtering and a large delay by inserting an electronic filter. In mathematics, we prove that the frequency conversion pair and electronic filter in between can be equivalent to a high-Q optical filter cascaded low-noise optical amplifier as a whole. Finally, the 20-d B bandwidth of oscillation is 1/20 of that of an optical local oscillator, and the maximum phase noise suppression can reach 65 dB.     

Quantized current in a quantum dot turnstile

We have performed RF experiments on a lateral quantum dot defined in the two dimensional electron gas (2DEG) of a GaAs/AlGaAs heterostructure. The small capacitance of the quantum dot gives rise to single-electron charging effects, which we employed to realize a quantum dot turnstile device. By modulating the tunnel barriers between the quantum dot and the 2DEG leads with two phase-shifted RF signals, we pass an integer number of electrons through the quantum dot per RF cycle. This is demonstrated by the observation of quantized current plateaus at multiples ofef in current-voltage characteristics, wheref is the frequency of the RF signals. When an asymmetry is induced by applying unequal RF voltages, our quantum dot turnstile operates as a single-electron pump producing a quantized current at zero bias voltage.     

Compact waveguide CO2 laser excited by a RF power supply

The design and performance of radio frequency (RF) excited partial Z-fold waveguide CO2 laser with two channels are exposed. The length of the partial Z-fold channel is 3×460 mm and that of the single channel is 460 mm. The electrodes for the two channels are common and excited by a same RF source. According to our analysis, this kind of structure can greatly improve the laser offset frequency stability. In the experiments, we studied the variation of laser output power with gas pressure for two different channels.The maximum laser output power is about 23 W for the partial Z-fold channel and about 6 W for the single channel.     

BER analysis of BPSK-SIM-based SISO and MIMO FSO systems in strong turbulence with pointing errors

Free space optics (FSO) is one of the sprouting technologies in optical communication systems domain. It can be employed as an alternative for the conventional radio frequency (RF) links to work out the current limitations in communication systems. But, the major drawback in FSO communication is the effect of random environment conditions on its performance. In this paper, we analyze the bit error rate (BER) and outage performance of single-input single-output (SISO) and multiple-input multiple-output (MIMO) FSO systems in strong atmospheric turbulence using binary phase shift keying subcarrier intensity modulation (BPSK-SIM) signaling technique. The closed-form expressions are derived and the results are realized in terms of 2D and 3D plots.     

Low-Loss NbTiN Films for THz SIS Mixer Tuning Circuits

Recent results at 1 THz using normal-metal tuning circuits have shown that SIS mixers can work well up to twice the gap frequency of the junction material (niobium). However, the performance at 1 THz is limited by the substantial loss in the normal metal films. For better performance superconducting films with a higher gap frequency than niobium and with low RF loss are needed. Niobium nitride has long been considered a good candidate material, but typical NbN films suffer from high RF loss. To circumvent this problem we are currently investigating the RF loss in NbTiN films, a 15K Tc compound superconductor, by incorporating them into quasi-optical slot antenna SIS devices.