高超声速模型尾迹电子密度二维分布反演方法

弹道靶利用二级轻气炮将模型加速到高超声速状态,模型在靶室内超高速飞行时形成等离子体尾迹.为实现高超声速模型尾迹电子密度径向二维分布诊断,利用七通道微波干涉仪测量系统获得了高超声速模型尾迹截面不同位置处平均电子密度.该系统采用一发七收的方式,实现平面波照射等离子体及平面波接收,天线波束可完全覆盖尾迹径向范围.多通道微波干涉仪数据处理过程常将等离子体视为分层介质,考虑到分层界面上折射效应的影响,本研究利用射线追踪方式建立电磁传播模型,结合测量数据建立目标函数,通过遗传算法优化来反演高超声速模型尾迹电子密度径向二维分布.该数据处理方法的电子密度反演结果与相同来流条件下的数值模拟结果对比吻合较好,初步验证了该方法的有效性.分析了分层模型对电子密度分布特性的影响,结果表明利用七层模型对尾迹建模效果最佳,且适用于不同厚度尾迹,最大化利用接收通道数,确保了计算精度.利用该方法实现弹道靶高超声速球模型尾迹电子密度二维分布诊断,并给出了给定实验状态下模型尾迹电子密度二维分布的一些规律.     

七道远红外HCN激光干涉仪的数据处理和实验结果

本文用非对称Abel变换,研制了一套计算机程序,对七道远红外HCN激光干涉仪测量的信号进行数据处理,并在HT-6M托卡马克中获得了等离子体电子密度时空分布的实验结果。     

HL-2A装置偏滤器中的微波干涉仪测量

微波干涉仪测量等离子体电子密度是一种常规监测工具，利用这种工具可以给出电子密度随时间变化的波形图。等离子体电子密度和微波干涉仪测出的相位差之间的关系为：     

多道干涉仪测量托卡马克等离子体电子密度

一、引 言 在目前托卡马克等离子体诊断中,采用垂直多道干涉仪测量等离子体电子密度时,由于等离子体水平位移的影响,使得测量信号在沿大环半径方向的分布是非对称的。这就要求采用非对称的Abel变换来给出等离子体电子密度的空间分布。一种常用的非对称Abel变换是分离变量法,它的基本思想是把测量信号分成对称元和非对称的权函数,对称部分采用标准的Abel变换,变换的结果乘上非对称的权函数。这种方法实际上是假定了等离子体电子密度弦积分值的不对称性与局部的不对称性是相同的;而且对称部分采用标准的Abel变换,如Barr的方法,Bockasten方法等。这些方法是把等离子体看成一个个同心圆,没有考虑到等离子体水平位移引起的弦长变化。本文采用一种新的变换方法,这种方法的特点是考虑到等离子体位移的实际情况。     

基于电感耦合等离子体源的CO2色散干涉仪搭建和测试

在电感耦合等离子体源(ICP)装置上成功地搭建了一套没有减震系统的水平单道测量的CO₂色散干涉仪,用以测量等离子体的弦积分电子密度,并且与HCN干涉仪结果作对比,证明了CO₂色散干涉仪的可行性。     

HT—6M托卡马克上七道远红外激光干涉仪的改进

介绍了用激光干涉法测定测量等离子体电子密度的原理，研究了ＨＣＮ激光器及其输出模式和传输特性，并给出七道远红ＨＣＮ激光干涉仪的改进及其最新结果，在光路改进中解决了原光路的一些重要问题，使信号提高了近一个量级。     

剪切干涉测量电缆枪等离子体电子密度

用剪切干涉仪测量了电缆枪产生的等离子体电子密度分布.在实验中获得了激光波前通过等离子体后的干涉图样,测出等离子体沿轴向的平均运动速度约为2 cm/μs.对干涉图进行了二维波前重建,计算了电子线积分密度,给出了直观的等离子体分布图像,并计算了自由电子总数.根据等离子体的圆柱对称关系,利用Abel积分变换算出了局部电子密度沿径向的分布曲线.     

多道HCN激光干涉仪在HL—1装置上的电子密度分布测量

本文描述了为测量ＨＬ－１装置电子密度分布而研制的多道远红外激光干涉仪系统及其特点，首次对装置在弹丸加料以及拉瓦尔超声分子束注入实验条件下的等离子体电子密度时－空分布进行了观测和初步分析，同时，介绍一种处理密度相移信号的新方法。     

多道HCN激光干涉仪在HL－1装置上的电子密度分布测量

本文描述了为测量ＨＬ－１装置电子密度分布而研制的多道远红外（ＦＩＲ）激光干涉仪系统及其特点。首次对装置在弹丸加料以及拉瓦尔（Ｌａｖａｌ）超声分子束注入实验条件下的等离子体电子密度时－空分布进行了观测和初步分析。同时，介绍一种处理密度相移信号的新方法。     

HT－6M托卡马克等离子体电子密度分布研究

根据等离子体电子密度诊断原理，建立了七道远红外ＨＣＮ激光干涉仪。用电子密度分布特征参数研究了ＨＴ－６Ｍ托卡马克上的边界欧姆加热（ＥＯＨ）、抽气限制器（ＰｕｍｐｉｎｇＬｉｍｉｔｅｒ）和离子回旋共振加热（ＩＣＲＨ）实验中的密度分布变化规律和约束特性。对于ＨＴ－６Ｍ托卡马克装置欧姆放电，密度分布特征参数ｕ约为１．１～１．３；约束改善的放电模式，ｕ上升到１．８～２．０，电子密度分布展宽；当密度分布特征多数ｕ≤０．９时，密度分布峰化，这是大破裂的先兆。     

Guided-Wave Two-Dimensional Acousto-Optic Scanner Using Proton-Exchanged Lithium Niobate Waveguide

Two-dimensional scanning of a 0.6328 mum guided-light beam has been realized using noncolinear acousto-optic (AO) coplanar Bragg diffraction together with colinear AO guided-mode to substrate radiation-mode conversion in a Z-cut Xpropagation LiNbO3 proton-exchanged (PE) waveguide. The two surface acoustic (SAW) waves utilized are at the center frequencies of 500 and 200 MHz, propagating in the Y and X axes, respectively. Two-dimensional scanning of approximately 720 resolvable light beam spots, namely, 18 40 (horizontal vertical) scanning, has been demonstrated using a light beam of 1.0 mm aperture. The total number of resolvable beam spots can be greatly increased from 720 by simply utilizing SAW transducers of larger bandwidth and a light beam of greater aperture. It should also be possible to significantly increase the diffraction efficiency from 3 % by optimizing the parameters of the PE waveguide and the SAWs.     

Femtosecond Transform-Limited Pulse Generation by Compensating for the Linear Chirp of SPM Spectra in Dispersion Shifted Fibers

A simple technique of pulse compression, based on the linear chirp compensation of self-phase modulation (SPM) spectra in dispersion shifted fibers, is demonstrated. The optimization procedure is carried out, for a short span of a single-mode fiber, using a parabolic law, which describes the behavior of the squared output pulse width versus the pump peak power in the case of Gaussian pulses. The experimental results give a minimum pulse duration of 233 fs, which is in good agreement with the model. Shorter and coherent pulses, down to 90 fs, have been obtained by inserting an interference filter at the optical output.     

Effect ofγ-radiation on the spectral luminescence characteristics of impure cadmium tungstate crystals

Results of a study of the effect of γ-radiation on the spectral luminescence properties of cadmium tungstate crystals doped with silver, bismuth, and molybdenum cations are presented. Spectral characteristics of the nondnnnoped crystals are briefly described. Absorption and photo and X-ray luminescence spectra of the crystals taken before and after exposure to γ-radiation (5.5·10⁴ Gy) are compared. It is found that the spectral characteristics of the crystals doped with silver, bismuth, and molybdenum cations do not change markedly after the exposure. The relation between the type of impurity-induced defects, individual characteristics of the impurity cations, and the character of the effect of γ-radiation on the spectral luminescence properties of impure crystals is analyzed (preliminarily). Translated from Zhurnal Prikladnoi Spektroskopii, Vol. 64, No. 1, pp. 55–60, January–February, 1997.     

Theoretical analysis and simulation of conjugate heights for dual-conjugate AO system in lidar

A multi-conjugate adaptive optics （MCAO） can offer a possibility of widening field of view （FOV） characterized by the isoplanatic angle, and the choose of conjugate height becomes a basic problem for MCAO, which influences the size of iosplanatic angle. Considering the application of lidar, the isoplanatic angle＇s expressions of two deformable mirrors （DMs） MCAO for uplink and downlink are deduced. The effects of conjugate heights for dual-conjugate AO are thoughtfully discussed, and the isoplanatic angles are further analyzed. The results show that the isopanatic angle varies with the conjugate height and reaches the maximum as the conjugate height is at the optimal altitude. Moreover, the optimal conjugate height changes with the propagation distance.     

Quick single-photon detector with many avalanche photo diodes working on the time division

Due to the limit of response speed of the present single-photon detector, the code rate is still too low to come into practical use for the present quantum key distribution (QKD) system.A new idea is put up to design a quick single-photon detector.This quick single-photon detector is composed of a multi-port optic-fiber splitter and many avalanche photo diodes (APDs).Au of the ports with APDs work on the time division and cooperate with a logic discriminating and deciding unit driven by the clock signal.The operation frequency lies on the number N of ports, and can reach N times of the conventional single-photon detector.The single-photon prompt detection can come true for high repetition-rate pulses.The applying of this detector will largely raise the code rate of the QKD, and boost the commercial use.     

Sorting of bending magnets for the SSRF booster

The Shanghai Synchrotron Radiation Facility(SSRF)booster ring,a full energy injector for the storage ring,is deigned to accelerate the electron beam energy from 150MeV to 3.5GeV that demands high extraction efficiency at the extraction energy with low beam loss rate when electrons are ramping.Closed orbit distortion(COD)caused by bending magnet field uniformity errors which affects the machine performance harmfully could be effectively reduced by bending magnet location sorting.Considering the affections of random errors in measurement,both ideal sorting and realistic sorting are studied based on measured bending magnet field uniformity errors and one reasonable combination of bending magnets which can reduce the horizontal COD by a factor of 5is given as the final installation sequence of the booster bending magnets in this paper.     

Improvement of four-wave mixing-based wavelength conversion efficiency in dispersion shifted fiber by 40-GHz clock pumping

40-GHz clock modulated signal as a pump to improve the efficiency of four-wave mixing (FWM)-based wavelength conversion in a 26.5-km dispersion shifted fiber (DSF) is investigated. The experimental results demonstrate that the conjugated FWM component has higher intensity with the clock pumping than that with the continuous-wave (CW) light pumping. The improvement of FWM-based wavelength conversion efficiency is negligible when the pump power is less than Brillouin threshold. But when the pump power is greater than Brillouin threshold, the improvement becomes significant and increases with the increment of pump power. The improvement can increase up to 9 dB if pump power reaches 17 dBm.     

Characterization of PolyA and PolyC mismatches by Raman spectroscopy

A.C mismatches are studied by Raman spectral characterization of PolyA, PolyC, and their equimolar complex in solution of 0.14 mol/L Na ,pH7.0.Experimental results show that A·C mismatches occur to be A/B (mainly A) conformers, and unlike Watson-Crick base pairing, this kind of mismatches is stabilized by only one hydrogen bond involving cytosine N4H2 and adenine N7.The formation of A·C complex makes the base stacking interactions much stronger, and conformation of the backbone more ordered, which leads to obvious Raman hypochromic effect with some shifts in corresponding bands.