温度影响下短波近红外酒精度检测的传递校正

短波近红外光谱结合多元校正方法测量酒精度具有快速、无损的特点,可以现场应用和在线检测。但是温度对预测模型的性能影响很大。作者研究了温度变化对乙醇水溶液的短波近红外光谱的影响,采用四种方法建立了温度变化下的偏最小二乘(PLS)传递校正模型：直接校正、全局校正、正交信号处理(OSC)和广义最小二乘加权法(GLSW)。结果表明,温度变化时直接传递校正存在很大的预测系统偏差,而采用全局校正、OSC和GLSW均能在一定程度上减小系统误差。全局校正需要较多的建模样品数量,得到的模型也更为复杂。而OSC和GLSW方法能得到更为简洁的模型和优良的预测结果。相比之下,GLSW算法得到的预测误差和使用的建模隐含变量数目均小于OSC方法,能够建立更为稳健的传递校正模型。     

含磺酸根侧链的聚苯乙炔-吡啶类共轭聚合物的荧光传感性能

利用Sonogashira偶合反应合成了两种新的含磺酸根侧链的聚苯乙炔-吡啶类共轭聚合物P1, P2. 通过紫外-可见吸收光谱和荧光光谱对其光学性质及Cu^2＋传感检测进行了研究. 结果表明, 按一定比例嵌段引入吡啶环的聚合物P1能有效地改善共轭主链的刚性, 提高检测的灵敏度, 使共轭聚合物具有更优异的荧光化学传感性能. 在甲醇溶剂中, P1 的荧光能被Cu^2＋有效地猝灭, 相对单体模型分子PESO₃, 其响应信号扩大222倍.     

应用于微电容超声换能器的信号处理电路设计*

针对微电容超声换能器的输出信号特征及检测要求,文中设计了换能器的微弱信号处理电路,包括基于跨阻的微弱电流信号检测和多重反馈带通滤波电路。通过搭建水下测试平台,对电路性能及功能进行实际测试,并进行水下测距实验。实验结果表明,该电路可对微电容超声换能器输出的400 k Hz信号进行检测放大与滤波;电路的线性度为0.18%,滤波电路中心频率为396 k Hz,带宽为55 k Hz。该电路可用于CMUT的接收信号处理并应用于超声测距及成像的前端信号处理。     

小快拍高分辨目标方位估计算法 GMUSIC的性能分析*

针对水下运动阵列在运动过程中进行方位估计时存在快拍不足的问题,研究了基于随机矩阵理论的MUSIC改进算法GMUSIC,该方法通过Stieltjes变换建立起统计协方差矩阵真实特征值、特征向量与样本协方差矩阵之间在逼近域中的关联,以修正样本协方差特征分解的结果,进而实现小快拍方位估计。仿真与试验表明:GMUSIC算法可以更好地分辨相邻目标,且需要的快拍数较MUSIC算法要少;在低信噪比情况下,GMUSIC算法方位估计均方根误差远小于MUSIC算法,估计成功概率远大于MUSIC算法。因此,GMUSIC算法适用于解决水声目标的小快拍方位估计问题。     

1.3 GHz单cell超导射频腔等离子体清洗放电研究(英文)

场致发射限制超导射频腔加速梯度增长。为了减少超导射频腔场致发射,在室温条件下,设计搭建了1.3GHz单cell超导射频腔等离子体清洗实验装置,开展等离子体清洗放电研究。使用CST软件模拟腔中的电磁场分布并且优化外部品质因数得到合适的放电条件。随着压强、前向功率和含氧量的变化,实验探讨了Ar/Ar-O₂放电的物理特征和电子激发温度的变化趋势。残余气体分析结果表明,Ar/O₂等离子体清洗能够消除腔体内表面的碳化物。Field emission limits the accelerating gradient increase in SRF cavities. In order to reduce field emission of SRF cavities, the plasma processing experimental setup of a 1.3 GHz single-cell SRF cavity is designed and built to carry out plasma processing discharge research at room temperature. The electromagnetic field distribution is simulated and the external quality factor is optimized to provide a suitable discharge condition using CST software. It is explored that the physical property of Ar/Ar-O₂ discharge and the variation trend of electron excitation temperature with the changes of pressure, forward power and O₂ content in experiment. The result of residual gas analysis indicates that Ar/O₂ plasma processing can eliminate the carbide of the inner surface of cavity.     

On the improvement of signal repeatability in laser-induced air plasmas

The relatively low repeatability of laser-induced breakdown spectroscopy (LIBS) severely hinders its wide commercialization. In the present work, we investigate the optimization of LIBS system for repeatability improvement for both signal generation (plasma evolution) and signal collection. Timeintegrated spectra and images were obtained under different laser energies and focal lengths to investigate the optimum configuration for stable plasmas and repeatable signals. Using our experimental setup, the optimum conditions were found to be a laser energy of 250 mJ and a focus length of 100 mm. A stable and homogeneous plasma with the largest hot core area in the optimum condition yielded the most stable LIBS signal. Time-resolved images showed that the rebounding processes through the air plasma evolution caused the relative standard deviation (RSD) to increase with laser energies of > 250 mJ. In addition, the emission collection was improved by using a concave spherical mirror. The line intensities doubled as their RSDs decreased by approximately 25%. When the signal generation and collection were optimized simultaneously, the pulse-to-pulse RSDs were reduced to approximately 3% for O(I), N(I), and H(I) lines, which are better than the RSDs reported for solid samples and showed great potential for LIBS quantitative analysis by gasifying the solid or liquid samples.     

An image processing study of a reentrant discotic cholesteric – biaxial cholesteric phase transition

In this work, we study and characterize the cholesteric sequence of phases (Ch_Dr ? Ch_B ? Ch_D), where the first Ch_Dr is the reentrant cholesteric discotic phase, Ch_B is the cholesteric biaxial phase and the second Ch_D is the cholesteric discotic phase. This sequence of phases is studied through polarized light microscopy and image processing technique, where, for the first time, the domains and borders of these transitions are established and characterized. They are also investigated and optically characterized throughout their textures.     

Effect of high pressure processing on the preservation of frozen and re-thawed sliced cod (Gadus morhua) and salmon (Salmo salar) fillets

Cod and salmon are both widely found in the seafood market, but those products are easily spoiled. This work reports on the investigation of the effects of three moderate pressure values (150, 300 and 450?MPa) applied for 5?min at 20°C on crude sliced cod and salmon fillets. It was found that high pressure processing (HPP) significantly reduced the microbial load during refrigerated storage for up to 14 days. As expected, the most effective treatment was 450?MPa because it inhibited microbial growth. This process affected the hardness, lightness, lipid oxidation, protein denaturation and oxidation. The fish muscle composition (lipid amount and protein profile) played a main role in the changes promoted by pressure. HPP permits the shelf life of the raw product at 4°C to be increased with minimal changes in the organoleptic characteristics and to enable crude consumption.     

基于简正波分解的不同阵列匹配场定位性能分析

针对利用不同阵列对浅海环境中水下目标的定位问题,基于简正波分解方法,对组合阵的目标声源定位性能进行了研究,着力解决在实际实验环境下定位性能不够高的问题,并降低实验设备布放难度.在浅海环境下,基于匹配场理论的声接收阵可实现目标的定位,但定位性能受阵形、阵元数目等影响.通过研究不同声接收阵的简正波分解矩阵,可以有效辨别不同阵形定位性能的优劣.仿真实验表明,当某一子阵简正波分解效果较差时,会降低组合阵的定位性能.基于实际实验的需求,在对短垂直阵和组合阵性能的研究中发现,由于水平阵对接收声场的定位模糊度函数中的旁瓣有抑制效果,从而造成模糊度函数表面上旁瓣较低,定位目标的主旁瓣比有所提升的现象.仿真实验表明,不同组合阵形的定位准确度均在90%以上,基于实际应用的考虑,组合阵无疑是对定位性能和实验复杂度的折中选择.