砖混结构砌体工程量的统筹计算法

以砌体结构为例，阐明在工程量计算中应正确应用统筹法，并得出了砌体工程量计算的统筹公式。     

基于 FEM 的深基础工程数值模拟及其实现

简要介绍了有限元法的原理和解题步骤,在借鉴国内外众多有限元分析软件包优点的基础上,开发了自身的FEM三维非线性程序,并用所研发的程序对具体的工程进行了应用和模拟,与实测数据的逼近表明了整个软件系统的准确性和实用性。     

高速公路工程施工项目成本控制与降低途径

阐述了工程施工项目成本控制的对象和内容、组织和分工、实施阶段和方法;以及降低工程施工项目成本采取有效的途径和措施.     

软骨组织工程新进展

软骨组织工程技术为治疗骨、软骨疾病提供了一种新的方法，其主要技术路线是，通过种子细胞和生物活性支架的体外共培养实现软骨组织的再生，并最终完成组织的修复与重建。种子细胞的选择、支架的构建，培养条件的优化对软骨再生有重要作用，从而成为目前软骨工程领域的研究重点。     

建设项目造价控制初探

介绍了建设项目造价控制的内容、措施,提出了加强工程审计环节的控制措施。     

开关型霍尔传感器的原理与工程实现

介绍了开关型霍尔传感器的工作原理，设计了适用于工程测量的具体线路，并分析了该线路的特点。     

西藏大学工科实践教学改革研究

文章从西藏大学工科办学现状出发,分析了目前工科实践教学中存在的问题,并结合今后工科发展趋势及西藏社会对工科人才的实际需求,提出了工科实践教学改革措施和途径。     

Photonic crystals--a step towards integrated circuits for photonics.

The field of photonic crystals has, over the past few years, received dramatically increased attention. Photonic crystals are artificially engineered structures that exhibit a periodic variation in one, two, or three dimensions of the dielectric constant, with a period of the order of the pertinent light wavelength. Such structures in three dimensions should exhibit properties similar to solid-state electronic crystals, such as bandgaps, in other words wavelength regions where light cannot propagate in any direction. By introducing defects into the periodic arrangement, the photonic crystals exhibit properties analogous to those of solid-state crystals. The basic feature of a photonic bandgap was indeed experimentally demonstrated in the beginning of the 1990s, and sparked a large interest in, and in many ways revitalized, photonics research. There are several reasons for this attention. One is that photonic crystals, in their own right, offer a proliferation of challenging research tasks, involving a multitude of disciplines, such as electromagnetic theory, nanofabrication, semi-conductor technology, materials science, biotechnology, to name a few. Another reason is given by the somewhat more down-to-earth expectations that photonics crystals will create unique opportunities for novel devices and applications, and contribute to solving some of the issues that have plagued photonics such as large physical sizes, comparatively low functionality, and high costs. Herein, we will treat some basics of photonic crystal structures and discuss the state-of-the-art in fabrication as well give some examples of devices with unique properties, due to the use of photonic crystals. We will also point out some of the problems that still remain to be solved, and give a view on where photonic crystals currently stand.