GaN材料系列的研究进展

ＧａＮ及其合金作为第三代半导体材料具有一系列优异的物理和化学性质，在光电子器件，高温大功率电子器件及高频微波器件应用方面具有广阔的前景，已成为当前高科技领域的研究重点，论述了这种材料的研究历史与发展现状，物理与化学性质，薄膜的生长方法及在光学电子和微电子器件应用于方面的研究进展。     

集成电路的现状及其发展趋势

集成电路是信息社会经济发展的基石。通过对集成电路发展规律的分析,从集成电路的设计、制造、新产品研发和市场动态等方面,描述了集成电路的最新动态;探讨了集成电路的发展趋势;指出集成电路与其它学科、技术的结合,不断形成新的研究方向;新材料、新结构、新器件不断涌现,特征尺寸继续缩小,摩尔定律仍然起作用。     

集成电路技术的发展

回顾了集成电路技术的发展历史,展望了集成电路未来的发展趋势。在微电子技术诞生和发展过程中具有一些里程碑式的发明,如:晶体管、集成电路、集成电路平面工艺、MOS器件、微处理器、光刻技术、铜互连工艺的发明等。集成电路技术一直并将继续以特征尺寸缩小、集成度提高的模式,按摩尔定律预测的指数增长率发展。随着器件特征尺寸逐渐缩小并逼近其物理极限,集成电路技术的发展将受到来自于材料、工艺和物理基础等方面的挑战,呈现出多维发展的趋势,这些挑战涉及了微电子学的理论基础。     

ZnO薄膜的制备和结构性能分析

ZnO作为一种宽带隙半导体材料,近几年来已经成为国际上紫外半导体光电子材料和器件领域的研究热点.激光分子束外延(L-MBE)系统是获得器件级ZnO外延薄膜的先进技术之一.高质量精密ZnO陶瓷靶材对于该工艺的实施是十分关键的,本文中采用高纯原料,在洁净条件下制备了大面积、薄片型、尺寸可控的符合理想化学配比的高纯ZnO陶瓷靶材.采用所制备的靶材,利用L-MBE技术在(0001)蓝宝石基片上进行了ZnO薄膜的外延生长,在280 ℃～300 ℃低温条件下所生长的薄膜样品具有(0001)取向的纤锌矿晶体结构,薄膜光学性能良好,论文中对ZnO薄膜的低温L-MBE生长机理进行了探讨.     

二维磁性材料与自旋系统研究进展

自旋系统是一类基于电子自旋工作的器件,具有高速、低功耗等优点,其中磁存储器被认为是下一代存储器的领跑者之一。二维材料有着天然的界面性能优势,接近微缩极限的尺寸特点,以及二维结构带来的物理特性,在自旋系统中有望得到广泛运用。本文概述了二维材料在自旋领域的最新研究进展,介绍了一些常见的二维磁性材料,讨论了基于二维材料的二维自旋器件,以及回顾了基于二维材料的磁性调控,最后总结了这一领域仍然面临的挑战,并对未来发展进行了展望。     

A hybrid surrogate and pattern search optimization method and application to microelectronics

A hybrid method for robust and efficient optimization process is developed by integrating a new response surface method and pattern search algorithm. The method is based on: (1) multipoint approximations of the objective and constraint functions, (2) a multiquadric radial basis function (RBF) for the zeroth-order function approximation and a new RBF plus polynomial-based moving least-squares approximation for the first-order enhanced function approximation, and (3) a pattern search algorithm to impose a descent condition and applied adaptive subregion management strategy. Several numerical examples are presented to illustrate accuracy and computational efficiency of the proposed method for both function approximation and design optimization. To demonstrate the effectiveness of the proposed hybrid method, it is applied to obtain optimum designs of a microelectronic packaging system. A two-stage optimization approach is proposed for the design optimization. The material properties of microelectronic packaging system and the shape parameters of solder ball are selected as design variables. Through design optimization, significant improvements of durability performances are obtained using the proposed hybrid optimization method.     

纳米电子技术

微电子技术引发了本世纪的信息革命。纳米科学技术将成为二十一世纪信息时代的核心和国际科学界和工程技术界关注的热点。     

汇编语言静态分析工具设计与应用

本文针对当前汇编语言的测试工具较少这一实际情况,针对某种汇编语言语法结构特点,确定了汇编语言静态分析工具的总体结构框架,并对工具实现过程中重点的功能模块算法,进行了详细的分析阐述,最终完成了汇编语言静态分析工具的设计和开发.对于关键技术的研究以及开发的测试工具具有一定的通用性,可满足不同类型汇编语言的软件静态测试工作.     

A new bonding-tool solution to improve stitch bondability

A new bonding-tool solution is proposed to improve stitch bondability by creating a new surface morphology on the tip surface of a wire-bonding tool (capillary). The surface has relatively deep lines with no fixed directions. This new capillary has less slipping between the wire and the capillary tip surface and provides better coupling effect between them. Experiments of wire bonding on unstable lead frames/substrates, alloyed wire (2N gold wire) bonding, and copper wire bonding were carried out to confirm the effect of the new capillary on the stitch bondability. The experimental results are promising and have proved that the use of the new capillary could improve the bondability of the stitch bond and minimize the occurrence of short tail defects and non-sticking on lead during bonding.     

Mask‐free Localized Grafting of Organic Polymers at the Micrometer or Submicrometer Scale on Composite Conductors or Semiconductor Substrates

This work presents a new one‐step process enabling the mask‐free localized functionalization by organic polymers of the conducting or semiconducting parts of composite surfaces at the micrometer and submicrometer scale. The functionalization is carried out via cathodic electrografting of suitable precursors of composite cathodes, which gives an insulating polymer film strongly grafted to selected parts of the composite electrodes and guarantees that the resolution is that of the pre‐existing pattern, even when the whole surface is dipped into the reaction medium. The presumed mechanism is based on a regioselective extraction of electrons from the composite surface according to its apparent local work function in solution.