Undercooling and Unidirectional Solidification of CuNi Alloy Melts

Cylinder-shaped CusoNi20 alloy melt is undercooled and solidified by the combination of the electromagnetic levitation technique and the flux treatment method. Nearly constant temperature gradient of 8-10 K/cm is realized for the cylindrical melts with differen~ undercooling levels at the bottom ends. The experimental results reveal that with the increase of the undercoo]ing of the melts from 35 to 220 K, the microstructures undergo transition from coarse dendrites to granular grains, unidirectional dendrites, and finally to equiaxed grains.     

基于Radon-CPF-Fourier变换的机动目标ISAR成像

由于机动目标的逆合成孔径雷达（Inverse Synthetic Aperture Radar，ISAR）成像中存在多普勒扩散现象，易导致成像分辨率降低。针对此问题，在多分量三次相位信号（Cubic Phase Signal,CPS）模型基础上，提出一种基于Radon-CPF-Fourier变换（Radon-Cubic Phase Function-Fourier Transform,RCFT）的机动目标ISAR成像方法。RCFT可实现CPF中自项能量的相干积累，减轻多普勒扩散带来的影响。与现有的基于时频分析和参数估计的ISAR成像算法相比，RCFT的主副比性能提升了至少2 dB，在时频分辨率无损失时具备更好的自项能量积累能力，可获得更高质量的成像结果。仿真验证了所提方法的有效性。     

基于修正Rodrigues参数的鲁棒滤波算法在组合导航中的应用

组合导航的观测量常会因外界复杂环境的干扰,出现滤波精度下降的现象。提出一种基于修正Rodrigues参数的鲁棒滤波算法,利用修正Rodrigues参数来重新构造组合导航姿态表达,通过引入HUBER鲁棒策略实现抑制观测量干扰等问题。在捷联惯导/卫星组合导航仿真例子中,比较了传统基于四元数的滤波算法、基于修正Rodrigues参数的滤波算法及其鲁棒化滤波算法,仿真实验结果表明算法具有计算量低和抑制外部干扰等效果,证明了算法的有效性。     

冲击波超压传感器IEPE电路设计

对压电式冲击波超压传感器压电集成电路(IEPE)的优点、原理及结构进行了分析与探讨,设计了基于分立式器件的IEPE电路。对电路进行了仿真和验证试验,得到了电路的放大倍数、幅频特性、线性度及温度特性。试验结果表明电路频响带宽大于600 kHz,线性度约为0.4%,全温下频响的波动程度小于4.3%,能够满足冲击波超压传感器对IEPE电路的要求。避免了电磁干扰等因素对冲击波压力测试系统的影响,实现了电路小型化,简化了测试系统。对实现IEPE压电式超压传感器有实际意义。     

氧化后退火技术对SiO2/4H-SiC界面态密度的影响

采用等离子体增强化学气相沉积(PECVD)低温处理和高温快速退火的技术,研究了退火条件对SiO2/4H-SiC界面态密度的影响.在n型4H-SiC外延片上高温干氧氧化50 nm厚的SiO2层并经N2原位退火,随后在PECVD炉中对样品进行350℃退火气氛为PH3,N2O,H2和N2的后退火处理,之后进行高温快速退火,最后制备Al电极4H-SiC MOS电容.I-V和C-V测试结果表明,各样品的氧化层击穿场强均大于9 MV/cm,PH3处理可以降低界面有效负电荷和近界面氧化层陷阱电荷,但PH3处理样品的界面态密度比N2O处理的结果要高.经N2O氛围PECVD后退火样品在距离导带0.2和0.4 eV处的界面态密度分别约为1.7× 1012和4×1011eV-1·cm-2,有望用于SiC MOSFET器件的栅氧处理.     

发射台计算机控制系统的抗干扰措施

随着计算机控制技术在广播电视发射台的全面运用,自动化播出水平有了一个本质的跨越。当发射台计算机控制系统处在强电磁波干扰的工作环境中时,计算机控制系统在运行中出现的各种偶发因素造成的干扰问题日益突出,因此我们必须考虑这一影响发射台播出系统稳定性的问题,采取相应的抗干扰措施,使系统达到稳定可靠的工作状态。     

基于最小二乘法的GM(1,1)模型在我国猪肉产量预测中的应用研究

猪肉产量受诸多因素影响,因此数据波动性大,并且具有小样本性及贫信息等特点.本文采用基于最小二乘法的GM(1,1)模型对我国未来几年内猪肉产量进行了短期预测.首先,介绍了GM(1,1)模型;然后,通过最小二乘法的原理弱化波动较大的数据,减少随机性,加强规律性,建立基于最小二乘法的GM(1,1)模型;其次,结合2008至2014年我国猪肉产量数据建立预测模型;最后,使用2014年数据对模型的可靠性进行验证,基于最小二乘法的GM(1,1)模型的预测结果更加接近实际值.预测结果显示未来3年中国猪肉产量将持续增加.该模型为其他相关预测提供了理论依据,也便于我国对未来猪肉产品市场进行宏观调控,维持猪肉市场平衡,避免猪肉价格波动风险.     

Synthesis and Crystal Structure of (9S)-2′-O-Benzoyl-9,11-[carbonylbis(oxy)]-9-deoxo-5-O-(β-D-desosaminyl)-12,21-anhydro-9-hydroxy-erythronolide A

The title compound (9S)-2′-O-benzoyl-9,11-[carbonylbis(oxy)]-9-deoxo-5-O-(-D-desosaminyl)-12,21-anhydro-9-hydroxyerythronolide A 1 was synthesized. The crystal structure of the acetone solvate of 1, C37H55NO11·C3H6O, was determined by single-crystal X-ray diffraction analysis. It belongs to monoclinic system, space group P21 with a = 14.4691(10), b = 8.2626(6), c = 17.5990(11) , β = 94.167(1)°, V = 2098.4(2)3, Mr = 748, Z = 2, Dc = 1.184 g/cm3, μ = 0.087 mm-1, F(000) = 808, S = 1.026, R = 0.0542 and wR = 0.1322 for 3331 observed reflections (I > 2σ(I)). In the solid state, molecules of 1 are linked into spirals along the b axis by O(25)- H(25)···O(29) intermolecular hydrogen bond.     

重离子冷却储存环CSRm双电子复合实验研究类锂36,40Ar15+离子同位素移动

配备电子冷却装置的重离子储存环为开展高电荷态离子的双电子复合（dielectronic recombination,DR）精密谱学研究提供了绝佳的实验平台。本工作在兰州重离子加速器冷却储存环主环（HIRFL-CSRm）上开展了类锂36,40Ar15+离子的双电子复合实验,实验观测了电子-离子质心系能量范围为0~35 eV的双电子复合速率系数谱。通过外推法获得了36,40Ar15+离子2s_1/2→2p_1/2和2s_1/2→2p_3/2的跃迁能量。同时利用GRASP2K程序理论计算了36,40Ar15+离子2s_1/2→2p_1/2和2s_1/2→2p_3/2跃迁的质量移动因子和场移动因子,进而得到双电子复合谱的同位素移动值。36,40Ar15+离子2s_1/2→2p_1/2和2s_1/2→2p_3/2同位素移动分别为0.861 meV和0.868 meV。它们均小于目前CSRm上双电子复合实验的实验分辨为~10 meV,进而解释了实验测量的DR谱上未能观察到同位素移动的原因。然而,高电荷态离子的同位素移动场效应与原子序数Z5成正比,因此,在重离子加速器冷却储存环实验环（HIRFL-CSRe）以及未来大型加速器--强流重离子加速器装置（HIAF）上有望通过DR精密谱学方法研究高电荷态重离子甚至放射性离子的同位素移动,进而获得相关原子核的核电荷半径等信息。The cooler storage ring is equipped with an electron-cooler. It is an excellent experimental platform for dielectronic recombination (DR) experiment of highly-charged ions. In this paper, the dielectronic recombination experiments of lithium-like Ar15+ ions with mass number 36 and 40 are conducted at the HIRFL-CSRm(main ring of the Cooling Storage Ring of Heavy Ion Research Facility in Lanzhou). The experimental electron-ion collision energy scale is from 0 eV to 35 eV. Extrapolation method is exploited to obtain the excitation energies of transitions 2s_1/2→2p_1/2 and 2s_1/2→2p_3/2 of the 36,40Ar15+ ions from experimental data. Meanwhile, GRASP2K program is utilized to calculate the mass shift factors and field shift factors of 36,40Ar15+ ions for 2s_1/2→2p_1/2 and 2s_1/2→2p_3/2 transitions to obtain isotope shifts in DR spectra. In theoretical calculation, isotope shifts of 36,40Ar15+ ions corresponding to 2s_1/2→2p_1/2 and 2s_1/2→2p_3/2 are 0.861 meV and 0.868 meV, respectively. They are both less than the experimental precision (~10 meV) of these dielectronic recombination experiments at the CSRm, which explains that isotope shifts cannot be distinguished from the experimental dielectronic recombination spectra. However, the field shift of highly-charged ions is proportional to Z5. In the future, the dielectronic recombination experiments of highly-charged heavy ions even radioactive ions will be conducted at the HIRFL-CSRe (experimental ring of the Cooling Storage Ring of Heavy Ion Research Facility in Lanzhou) and the future large accelerator facility--HIAF(High intensity Heavy-ion Accelerator Facility) to measure isotope shifts to obtain the nuclear charge radius information.