有机／无机杂化SiO_2／Si光波导薄膜的制备及表征

采用有机／无机杂化溶胶-凝胶（sol-gel）法制备了SiO_2光波导薄膜材料。采用甲基丙烯酰氧丙基三甲氧基硅烷（MAPTMS）作为反应先躯体，四丙氧基锆（ZPO）作为调节折射率的材料，正丙醇（n-propyl alcohol）为溶剂，利用旋涂方法在Si基片上成膜，采取低温长时间、高温短时间的热处理方式，制备出无龟裂薄膜。分别采用棱镜耦合仪和原子力显微镜（AFM）研究了不同溶剂量和不同ZPO量情况下，薄膜的折射率、厚度以及表面形貌变化情况。研究结果表明

Si基外延GaN的结构和力学性能

采用MOCVD技术在Si衬底(111)面上生长了GaN外延膜,分析了薄膜表面形貌和Si基GaN的临界载荷,研究了表面发光性能和GaN晶体质量随深度的变化.结果表明,外延层的表面比较平整,多组超晶格插入层可以进一步降低位错密度,提高晶体质量.膜的表面有许多颗粒状的发光中心,除了强的带边峰外,还有弱的黄光带和红光带,这可能是ON与VGa所产生的深能级跃迁产生的.GaN的晶体质量具有梯度变化,GaN外延层的上层晶体质量比较好,界面附近比较差,但是外延层与衬底的结合强度较高,临界载荷达到2.05 N.

高速率、低价位、智能化“3C”光网络呼唤Si基化、集成化SOC芯片

Si是微电子发展的无可替代基质材料，取之不尽，工艺成熟，立足于Si基材料，发展光网络SOC芯片，是突破上述困扰的重要途径。然而Si属间接带隙，又为立方反演对称的非极性材料，不具优异的天然光学特性。人工改性是突破Si材料本征限制的根本出路，能带工程、纳米工程、局域化工程、光子工程以及声子工程的综合运用，有望实现Si基化全光波长变换器，高速率全光开关乃至Si基激光器，为Si基化、集成化光网络SOC芯片的发展奠定基础，并将开拓出一门崭新的Si基集成光子学。

Nonlinear Optical Properties of AI-Doped nc-Si-SiO_2 Composite Films

The nonlinear optical properties of Al-doped nc-Si-SiO_2 composite films have been investigated using the time-resolved four-wave mixing technique with a femtosecond laser. The off-resonant third-order nonlinear susceptibility is observed to be 1.0 × 10~(-10) esu at 800nm. The relaxation time of the optical nonlinearity in the films is as short as 60fs. The optical nonlinearity is enhanced due to the quantum confinement of electrons in Si nanocrystals embedded in the SiO_2 films. The enhanced optical nonlinearity does not originate from Al dopant because there are no Al clusters in the films.

A Multi-Finger Si_(1-x)Ge_x/Si Heterojunction Bipolar Transistor for Wireless Power Amplifier Applications

A large area multi-finger configuration power SiGe HBT device(with an emitter area of about 880μm~2)was fabricated with 2μm double-mesa technology.The maximum DC current gain β is 214.The BV_(CEO) is up to 10V,and the BV_(CBO) is up to 16V with a collector doping concentration of 1×10~(17)cm~(-3) and collector thickness of 400nm.The device exhibits a maximum oscillation frequency f_(max) of 19.3GHz and a cut-off frequency f_T of 18.0GHz at a DC bias point of I_C=30mA and V_(CE)=3V.MSG(maximum stable gain)is 24.5dB,and U(Mason unilateral gain)is 26.6dB at 1GHz.Due to the novel distribution layout,no notable current gain fall-off or thermal effects are observed in the I-V characteristics at high collector current.

光子晶体在Si基发光器件中的应用

在Si基集成光电子学的发展中,实现高效的Si基光源始终是人们期待的目标.但是Si材料的间接带隙特性导致其发光效率低.目前,已经探索了多种Si基材料体系以提高Si材料的发光效率,但是尚未取得突破性的进展.近年来,光子晶体以其独特的控光能力而备受人们的关注,将光子晶体引入到Si基材料体系中可以显著提高Si基材料的发光效率,这无疑对Si基光电子学的发展起到了重要的贡献.本文简述了利用光子晶体提高Si基材料发光效率的机制,介绍了光子晶体在几种Si基材料中的应用,探索了Si基光子晶体发光器件的潜在应用前景.

DCXRD Investigation of a Ge/Si（001） Island Multilayer Structure

A Ge/Si（001） island multilayer structure is investigated by double crystal X-ray diffraction, transmission electron microscopy,and atomic force microscopy. We fit the satellite peaks in the rocking curve by two Lorentz lineshapes, which originate from the wetting layer region and the island region. Then from the ratio of the thick- nesses of the Si and Ge （GeSi） layers as determined by TEM,tbe Ge compositions of the wetting layer and islands are estimated to be about 0. 51 and 0. 67, respectively,according to the positions of the fitted peaks. This proves to be a relatively simple way to investigate the Ge/Si （001） island multilayer structure.

Uniformity Investigation in 3C-SiC Epitaxial Layers Grown on Si Substrates by Horizontal Hot-Wall CVD

50mm 3C-SiC epilayers are grown on （100） and （111） Si substrates in a newly developed horizontal lowpressure hot-wall CVD reactor under different growth pressures and flow rates of H_2 carrier gas. The structure,electrical properties, and thickness uniformity of the 3C-SiC epilayers are investigated by X-ray diffraction （XRD） ,sheet resistance measurement, and spectroscopic ellipsometry. XRD patterns show that the 3C-SiC films have excellent crystallinity. The narrowest full widths at half maximum of the SIC（200） and （111） peaks are 0.41° and 0.21°, respectively. The best electrical uniformity of the 50mm 3C-SiC films obtained by sheet resistance measurement is 2.15%. A σ/mean value of ± 5.7% in thickness uniformity is obtained.

nc-Ge/Si岛基光子晶体单点缺陷腔的数值模拟与分析

阐述了利用光子晶体单点缺陷微腔来提高Ge/Si纳米岛发光效率的机理.通过3D FDTD方法计算出在平板厚度为300nm时,谐振波长随a和r/a变化的规律,即当给定r/a,h时,波长随晶格常数成次线性增加;当给定a,h时,波长随r/a的增加而减小.并从理论上给予分析.

射频磁控溅射制备掺Al的纳米Si-SiO_2复合薄膜及其光致发光特性

采用射频磁控技术和退火处理制备掺Al的纳米Si-SiO_2复合薄膜.通过X射线衍射(XRD)、X射线光电子能谱(XPS)和傅里叶变换红外光谱(FTIR)表征了薄膜的结构,组分和成键情况.掺Al在SiO_2中造成氧空位,使薄膜光致发光强度增强,并出现新的发光峰.退火温度对掺Al薄膜的光致发光的峰位和峰强有较大影响.

Analysis of Si/GaAs Bonding Stresses with the Finite Element Method

In conjunction with ANSYS, we use the finite element method to analyze the bonding stresses of Si/GaAs. We also apply a numerical model to investigate a contour map and the distribution of normal stress,shearing stress,and peeling stress,taking into full consideration the thermal expansion coefficient as a function of temperature. Novel bonding structures are proposed for reducing the effect of thermal stress as compared with conventional structures. Calculations show the validity of this new structure.

Si／SiGe量子级联激光器研究进展

Si／SiGe量子级联激光器是一种新型的带内跃迁的红外光源，突破了Si基材料间接带隙特性对光跃迁的限制。Si/SiGe量子级联激光器的开发将为实现太赫兹有源器件的硅基集成产生深远影响。文章介绍了Si/SiGe量子级联激光器的工作原理，以及这类激光器在能带设计、材料生长和波导制作方面的最新进展。

双源电子束蒸发制备Si/SiO2光学薄膜的工艺

用双源电子束蒸发的方法,在K9玻璃基片上蒸镀Si和SiO2的混合膜.通过改变两种膜料蒸发速率的比例,得到的各个膜层,其折射率大小在两种膜料折射率之间的范围内变化.从实验上得出了混合膜层的折射率随Si和SiO2蒸发速率比变化的规律,并讨论了这种淀积方法的优越性.

离子束溅射制备Si／Ge多层膜及红外吸收性能研究

采用离子束溅射方法在Si衬底上制备Si／Ge多层膜。通过改变生长温度、溅射速率等因素得到一系列Si／Ge多层膜样品。通过X射线衍射、拉曼散射、原子力显微分析（AFM）等表征方法研究薄膜结构与生长条件的关系。在小束流（10mA）、室温条件下制备出界面清晰、周期完整的Si／Ge多层膜。通过红外吸收谱的测量发现薄膜样品具有较好的红外吸收性能。

InP/Si键合界面热应力分析

从理论上分析了键合热应力产生的原因,在此基础上,采用双层条状金属热应力模型讨论InP/Si键合过程中应力的大小及分布情况.结果表明, 由剪切应力和晶片弯矩决定的界面正应力是晶片中心区域大面积键合失败的主要原因,同时InP/Si键合合适的退火温度应该在250～300 ℃.最后在300 ℃退火条件下很好地实现了InP/Si键合,界面几乎没有气泡,有效键合面积超过90%.