Raman properties embeddedof GaSb nanoparticlesin SiO2 films

The Raman shifts of nanocrystalline GaSb excited by an Ar^ ion laser at wavelengths 514.5, 496.5, 488.0, 476.5,and 457.9nm are studied by an SPEX-1403 laser Raman spectrometer respectively, and they are explained by phonon confinement, tensile stress, resonant Raman scattering and quantum size effects. The Stokes and anti-Stokes Raman spectra of GaSb nanocrystals strongly support the Raman feature of GaSb nanocrystals. The calculated optical spectra compare well with experimental data on Raman scattering GaSb nanocrystals.     

袁家骝和他的科学贡献

1 生平 美籍华人、世界著名高能物理学家袁家骝先生,于2003年2月11日下午在北京协和医院逝世,享年91岁[1].     

双维位置灵敏CsI(Tl)探测器

描述了一种双维位置灵敏CsI(Tl)探测器.用3组分α源测量该探测器得到的位置分辨为0.81mm(FWHM),对于69MeV/u ³⁶Ar能量分辨为0.9％(FWHM).在RIBLL的ΔE-E粒子鉴别望远镜中常常作为E探测器.由于CsI(Tl)晶体对不同的粒子的能损-光输出的非线性,需要针对不同离子对CsI探测器作能量-光输出校正曲线.     

有限温度下的K介子凝聚

我们把Brown等讨论在零温时K介子凝聚的工作推广到有限温度.结果表明温度对于原子核的临界密度影响不大,新物质相有可能在重离子反应中形成.     

Spectral property and its shape transition on ^72-84Kr isotopes in microscopic core plus two-quasiparticle approach

By using a microscopic sdIBM-2 2q.p, approach, the levels of the ground-band, 7-band and partial two-quasi-particle bands for ^72-84Kr isotopes are calculated. The data obtained are in good agreement with the recent experimental results, and successfully reproduce the nuclear shape phase transition of ^72-S4Kr isotopes at zero temperature.The ground-state band is described successfully up to J^π=18^ and Ex=10.0MeV. Based on this model, the aligned requisite minimum energy has been deduced. The theoretical calculations indicate that no distinct change of nuclear states is caused by the abruptly broken pair of a boson, and predict that the first backbending of Kr isotopes may be the result of aligning of two quasi-neutrons in orbit g9/2, which galus the new experimental support of the measurements of g factors in the ^78-86Kr isotopes.     

Nano-tribological study on a super-hydrophobic film formed on rough aluminium substrates

A novel super-hydrophobic stearic acid (STA) film with a water contact angle of 166^o was prepared by chemical adsorption on aluminum wafer coated with polyethyleneimine (PEI) film. The micro-tribological behavior of the super-hydrophobic STA monolayer was compared with that of the polished and PEI-coated Al surfaces. The effect of relative humidity on the adhesion and friction was investigated as well. It was found that the STA monolayer showed decreased friction, while the adhesive force was greatly decreased by increasing the surface roughness of the Al wafer to reduce the contact area between the atomic force microscope (AFM) tip and the sample surface to be tested. Thus the friction and adhesion of the Al wafer was effectively decreased by generating the STA monolayer, which indicated that it could be feasible and rational to prepare a surface with good adhesion resistance and lubricity by properly controlling the surface morphology and the chemical composition. Both the adhesion and friction decreased as the relative humidity was lowered from 65% to 10%, though the decrease extent became insignificant for the STA monolayer. The project supported by the National Natural Science Foundation of China (50375151, 50323007, 10225209) and the Chinese Academy of Sciences (KJCX-SW-L2)     

大学物理学绪论课

自 2 0 0 4年第 4期起 ,本刊拟增加一个新栏目 :特色教案选登 .开辟这个栏目的目的是想进一步加强物理教师间的交流 ,不仅通过教学研究文章交流 ,而且通过教学中实用的教案进行交流 .我们相信 ,不管是谁的教案 ,它总有自己的特色和“闪光点”值得同行们借鉴、学习或引起有益的讨论 .因此 ,我们恳请广大读者关注这个新的栏目 ,提出你的建议和意见 .我们特别欢迎全国各高校的老师们 ,把您的具有一定特色的物理课程的教案向本栏投稿 ,绪论课、讲课、辅导课、讨论课、总结课、实验课等各种类型的教案我们都欢迎 .教案拟采用原讲稿的版式 (powerpoint版式或word版式等 )刊登 ,这样做也可以节省投稿者的时间     

TiN和Ti1-xSixNy薄膜的微观结构分析

使用x射线衍射(XRD)、x射线光电子谱(XPS)、高分辨透射电子显微镜(HRTEM)和原子力显微镜(AFM)多种观测手段分析了TiN薄膜和Ti1-xSixNy纳米复合薄膜的微观结构.实验分析证明Ti1-xSixNy薄膜是由直径为3-5nm的纳米晶TiN和非晶Si3N4相构成,并且Ti1-xSixNy薄膜的表面粗糙度小于相同条件下制备的TiN薄膜,在Ti1-xSixNy薄膜体系的自由能中引入界面能的概念,在此基础上分析了体系中TiN晶粒的取向问题.     

走近纳米科技

 纳米科技于20世纪70年代兴起,进入21世纪越来越被大家耳熟。纳米科技在促进科技进步,提高社会文明程度,改善人类生存质量,更新对物质世界的认知及观念上扮演了举足轻重的角色。纳米是长度单位。一纳米为一米的十亿分之一,如果你的拇指指甲盖宽14毫米,这个比例就相当于拇指指甲盖宽度与地球直径间的比例。纳米科技所接触、研究、开发的是100纳米～0.1纳米范围内物质的性质和应用。一个分子或一个原子大小的数量级大致在10纳米。因此,纳米科技也可以说是在分子水平上观察、分析、研究物质的物理、化学性质并加以开发利用。