幅相一致行波管非线性理论与计算机模拟

采用谐波互作用的行波管二维大信号非线性理论,建立了高频电路结构和外部工作条件零散模型,对影响增益、相位频率特性的主要因素进行了理论分析和数值计算,开发了可动态实时显示行波管工作状态的可视化科学计算软件,并利用该软件全面地分析了某管型的幅相一致特性,为新近研制的幅相一致行波管提供了很有价值的计算结果。     

利用“神光-Ⅱ”激光装置多路光束叠加直接驱动下的冲击波平面性及稳定性

利用“神光-Ⅱ”的3路基频光输出及小透镜列阵束匀滑技术,通过优化设计和合理地选择光路组合,实现了多路叠加斜入射的驱动激光, 在靶材料中产生一个650~750μm范围内平面性良好的冲击波,有效地提高了“神光-Ⅱ”输出光束的利用率。同时,利用斜面靶进行的冲击稳定性实验表明,在靶面功率密度分别为3.26×1014及2.56×1014W/cm2时,冲击波至少在28.38~55.82和22.13~35.07μm的Al样品厚度内是稳定传播的。     

光参量啁啾脉冲放大增益特性研究

通过对非线性三波耦合方程组进行数值求解,研究了光参量放大的增益特性及饱和放大特性。给出了泵浦光、信号光参数对参量增益的影响及其与晶体饱和长度的关系。且OPA具有传统CPA系统所不具有的优点,将有可能取代传统的CPA系统而作为超短超强激光系统的新型前端。     

介质的增益与损耗对高功率激光小尺度自聚焦的影响

由光束在非线性介质中传输所满足的近轴波方程,应用Bespalov Talanov（BT）理论,导出了光束在两种介质中传输时,小尺度不稳定增长所遵循的微分方程。通过对比分析介质的增益和损耗对高功率激光的小尺度自聚焦行为的不同影响,得出了截止频率、最快增长频率、纹波的积分指数增益等特性随各参量的变化,求得了最大和最小的纹波增长的距离,以及介质的增益和损耗特性对成丝距离的影响。     

小信号低频放大器的调整与测试

针对新安装完成的小信号低频放大器,通过对电路的测试和调整,可发现和纠正设计方案的不足,并查出电路安装中的错误,然后采取措施加以改进,使之达到预定的技术要求。本文就小信号低频放大器给出了完整的调整与测试步骤,具有很高的理论参考意义和实际使用价值。     

基于Contourlet变换的焊缝X射线图像增强

为了改善X射线成像对比度低、背景噪声明显、被测工件细节不易显示等缺点.针对X射线图像的特点及常规增强方法的不足,应用一种基于Contourlet变换的增强算法,对X射线图像进行图像增强,提高了原图像的对比度和像质,达到了细节区域的最佳视觉效果.实验结果表明,该算法与直方图均衡和小波域图像增强方法相比,有效的增强了对比度、抑制了背景噪声.该算法对X射线图像增强后,图像所达到的射线检测标准比前两种算法高.     

High SNR sum capacity analysis of BD MIMO BC systems with imperfect CSI

We investigate the sum capacity of Block Diagonalization precoding Multiple Input Multiple Output Broadcast Channels (BD MIMO BC) with imperfect Channel State Information (CSI) at the base station. Since it is difficult to obtain the exact expression, a lower and an upper bounds of the sum capacity under Gaussian channel estimation errors are drived instead. Analyses show that the gap between two bounds is considerably tight at all Signal to Noise Ratio (SNR) region. From the lower bound of the sum capacity, we can see that the multiplexing gain tends to be zero at high SNR region, which indicates that the BD MIMO BC system with channel estimation errors is interference-limited at high SNR.     

聚焦条件下的高斯波束矩形口径天线近场分析

采用口径场法对聚焦条件下具有高斯波束的矩形口径天线近场进行了分析,得到了聚焦条件下的近场场强分布与近场增益解析式,并对不同的聚焦位置进行了仿真。结果表明：在近场区,聚焦位置离轴向越近,其场强越强,且增益越大,聚焦位置沿轴向时其场强与增益皆为最大;反之,聚焦位置离轴向越远,其近场场强与近场增益越小。因此,通过聚焦可以显著提高天线口径面场的近场场强与增益指标,从而提高天线系统的有效作用距离。     

Optimal feedback gains of a delayed proportional-derivative (PD) control for balancing an inverted pendulum

In the dynamics analysis and synthesis of a con-trolled system, it is important to know for what feedback gains can the controlled system decay to the demanded steady state as fast as possible. This article presents a sys-tematic method for finding the optimal feedback gains by taking the stability of an inverted pendulum system with a delayed proportional-derivative controller as an example. First, the condition for the existence and uniqueness of the stable region in the gain plane is obtained by using the D-subdivision method and the method of stability switch. Then the same procedure is used repeatedly to shrink the stable region by decreasing the real part of the rightmost charac-teristic root. Finally, the optimal feedback gains within the stable region that minimizes the real part of the rightmost root are expressed by an explicit formula. With the optimal feedback gains, the controlled inverted pendulum decays to its trivial equilibrium at the fastest speed when the initial val-ues around the origin are fixed. The main results are checked by numerical simulation.     

A new coding scheme of QC-LDPC codes for optical transmission systems

Based on Galois Field (GF(q)) multiplicative group, a new coding scheme for Quasi-Cyclic Low-Density Parity-Check (QC-LDPC) codes is proposed, and the new coding scheme has some advantages such as the simpler construction, the easier implementation encoding, the lower complexity of the encoding and decoding, the more flexible adjustment of the code length as well as the code rate and so forth. Under the condition of considering the characteristics of optical transmission systems, an irregular QC-LDPC (3843,3603) code to be suitable for optical transmission systems is constructed by applying the proposed new coding scheme. The simulation result shows that the net coding gain (NCG) of the irregular QC-LDPC (3843,3603) code is respectively improved 2.14 dB, 1.19 dB, 0.24 dB and 0.14 dB more than those of the classic RS (255,239) code in ITU-T G.975, the LDPC (32640,30592) code in ITU-T G.975.1, the regular SCG-LDPC (3969,3720) code constructed by the Systematically Constructed Gallager (SCG) coding scheme and the regular QC-LDPC (4221,3956) code at the bit error rate (BER) of 10-8. Furthermore, all the five codes have the same code rate of 93.7%. Therefore, the irregular QC-LDPC (3843,3603) code constructed by the proposed new coding scheme has the more excellent error-correction performance and can be better suitable for optical transmission systems.