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81.
邱小波 《电子质量》2013,(3):63-67,76
该次试验的目的是为了开发出85℃3000小时这种新的系列的焊片式铝电解电容器。为此,对该系列选取了最小电压200V的小容量和大容量,及最大电压450V的小容量和大容量的产品分别进行了设计和开发。开发过程中对阳极箔,阴极箔,电解纸,电解液等原材料进行了分析比较,并将四种设计分别做成产品并测试最薄弱的环节85℃3000小时的纹波电流试验,结果表明该系列的设计能很好地满足电性能要求。  相似文献   
82.
针对汉字信息在公共信道传递的保密要求,研究了汉字在计算机内部的区位码表示形式,提出在信息加密中汉字对用区位码数值进行处理,研究设计了汉字区位码数值加密方式的一种方法,对加密的强度进行了简单分析,并给出了汉字的加密解密流程图和C语言的加密解密程序。  相似文献   
83.
首次提出了用六方相晶体结构的宽带隙ZnMgO作为薄膜场效应晶体管(TFT)的沟道层,用立方相ZnMgO纳米晶体薄膜作为栅绝缘层,在实验中用透明的ITO导电玻璃作为衬底,通过连续沉积六方和立方相结构的纳米ZnMgO晶体薄膜,并通过光刻、电极工艺等,研制了透明的ZnO基TFT, TFT的电流开关比达到1E4,场效应迁移率为0.6cm2/(V·s).在偏压2.5MV/cm下漏电流为1E-8A.  相似文献   
84.
Functional and structural maps, such as a curvature, cortical thickness, and functional magnetic resonance imaging (MRI) maps, indexed over the local coordinates of the cortical manifold play an important role in neuropsychiatric studies. Due to the highly convoluted nature of the cerebral cortex and image quality, these functions are generally uninterpretable without proper methods of association and smoothness onto the local coordinate system. In this paper, we generalized the spline smoothing problem (Wahba, 1990) from a sphere to any arbitrary two-dimensional (2-D) manifold with boundaries. We first seek a numerical solution to orthonormal basis functions of the Laplace-Beltrami (LB) operator with Neumann boundary conditions for a 2-D manifold M then solve the spline smoothing problem in a reproducing kernel Hilbert space (r.k.h.s.) of real-valued functions on manifold M with kernel constructed from the basis functions. The explicit discrete LB representation is derived using the finite element method calculated directly on the manifold coordinates so that finding discrete LB orthonormal basis functions is equivalent to solving an algebraic eigenvalue problem. And then smoothed functions in r.k.h.s can be represented as a linear combination of the basis functions. We demonstrate numerical solutions of spherical harmonics on a unit sphere and brain orthonormal basis functions on a planum temporale manifold. Then synthetic data is used to quantify the goodness of the smoothness compared with the ground truth and discuss how many basis functions should be incorporated in the smoothing. We present applications of our approach to smoothing sulcal mean curvature, cortical thickness, and functional statistical maps on submanifolds of the neocortex.  相似文献   
85.
Finding link‐disjoint or node‐disjoint paths under multiple constraints is an effective way to improve network QoS ability, reliability, and so on. However, existing algorithms for such scheme cannot ensure a feasible solution for arbitrary networks. We propose design principles of an algorithm to fill this gap, which we arrive at by analyzing the properties of optimal solutions for the multi‐constrained link‐disjoint path pair problem. Based on this, we propose the link‐disjoint optimal multi‐constrained paths algorithm (LIDOMPA), to find the shortest link‐disjoint path pair for any network. Three concepts, namely, the candidate optimal solution, the contractive constraint vector, and structure‐aware non‐dominance, are introduced to reduce its search space without loss of exactness. Extensive simulations show that LIDOMPA outperforms existing schemes and achieves acceptable complexity. Moreover, LIDOMPA is extended to the node‐disjoint optimal multi‐constrained paths algorithm (NODOMPA) for the multi‐constrained node‐disjoint path pair problem.  相似文献   
86.
针对目前大多数链路丢包率推理算法不能兼顾精度和速度的问题,该文提出一种新的覆盖网链路丢包率推理算法,算法通过将链路丢包率推理问题转换为求解非线性规划的最优化解问题,从而较准确地计算出所有链路的丢包率。该算法仅需对每条端到端路径进行一次测量,且没有额外部署成本。通过软件模拟和Internet实验对算法性能进行了验证,实验结果证明了算法的可行性及优越性。  相似文献   
87.
简要介绍了纳米晶硅薄膜的微结构表征方法,重点讨论了PECVD制备方法中工艺参数对薄膜结构的影响,并探讨了氢在薄膜形成和生长中的作用。通过优化氢稀释率、衬底温度、反应气压、激励功率和激发频率等工艺参数可提高纳米晶硅薄膜的晶化率并改善薄膜质量。结合喇曼光谱、X射线衍射谱、傅里叶红外光谱和高分辨透射电镜等表征方法可深入研究薄膜形成机理,对进一步探索薄膜光电特性有重要意义。分析了等离子体化学气相沉积(PECVD)制备方法中各工艺参数对薄膜质量和沉积速率的影响,指出其存在的问题,并探寻了今后的研究方向。  相似文献   
88.
The cell membrane is the most important protective barrier in living cells and cell membrane targeted therapy may be a high‐performance therapeutic modality for tumor treatment. Here, a novel charge reversible self‐delivery chimeric peptide C16–PRP–DMA is developed for long‐term cell membrane targeted photodynamic therapy (PDT). The self‐assembled C16–PRP–DMA nanoparticles can effectively target to tumor by enhanced permeability and retention effect without additional carriers. After undergoing charge reverse in acidic tumor microenvironment, C16–PRP–DMA inserts into the tumor cell membrane with a long retention time of more than 14 h, which is very helpful for in vivo applications. It is found that under light irradiation, the reactive oxygen species generated by the inserted C16–PRP–DMA would directly disrupt cell membrane and rapidly induce cell necrosis, which remarkably increases the PDT effect in vitro and in vivo. This novel self‐delivery chimeric peptide with a long‐term cell membrane targeting property provides a new prospect for effective PDT of cancer.  相似文献   
89.
Oxygen vacancies (OVs) dominate the physical and chemical properties of metal oxides, which play crucial roles in the various fields of applications. Density functional theory calculations show the introduction of OVs in TiO2(B) gives rise to better electrical conductivity and lower energy barrier of sodiation. Here, OVs evoked blue TiO2(B) (termed as B‐TiO2(B)) nanobelts are successfully designed upon the basis of electronically coupled conductive polymers to TiO2, which is confirmed by electron paramagnetic resonance and X‐ray photoelectron spectroscopy. The superiorities of OVs with the aid of carbon encapsulation lead to higher capacity (210.5 mAh g?1 (B‐TiO2(B)) vs 102.7 mAh g?1 (W‐TiO2(B)) at 0.5 C) and remarkable long‐term cyclability (the retention of 94.4% at a high rate of 10 C after 5000 times). In situ X‐ray diffractometer analysis spectra also confirm that an enlarged interlayer spacing stimulated by OVs is beneficial to accommodate insertion and removal of sodium ions to accelerate storage kinetics and preserve its original crystal structure. The work highlights that injecting OVs into metal oxides along with carbon coating is an effective strategy for improving capacity and cyclability performances in other metal oxide based electrochemical energy systems.  相似文献   
90.
Black phosphorus (BP) has been considered as a promising two‐dimensional (2D) semiconductor beyond graphene owning to its tunable direct bandgap and high carrier mobility. However, the hole‐transport‐dominated characteristic limits the application of BP in versatile electronics. Here, we report a stable and complementary metal oxide semiconductor (COMS) compatible electron doping method for BP, which is realized with the strong field‐induced effect from the K+ center of the silicon nitride (SixNy). An obvious change from pristine p‐type BP to n type is observed after the deposit of the SixNy on the BP surface. This electron doping can be kept stable for over 1 month and capable of improving the electron mobility of BP towards as high as ~176 cm2 V–1 s–1. Moreover, high‐performance in‐plane BP p‐n diode and further logic inverter were realized by utilizing the n‐doping approach. The BP p‐n diode exhibits a high rectifying ratio of ~104. And, a successful transfer of the output voltage from “High” to “Low” with very few voltage loss at various working frequencies were also demonstrated with the constructed BP inverter. Our findings paves the way for the success of COMS compatible technique for BP‐based nanoelectronics.  相似文献   
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