不同衬底银膜表面等离子激元波的辐射效率

不同衬底银膜表面等离子激元波的辐射效率邓里文王恭明（复旦大学物理系上海２００４３３）ＥｆｉｃｉｅｎｃｙｏｆＥｍｉｓｉｏｎｆｒｏｍＳｕｒｆａｃｅＰｌａｓｍｏｎＷａｖｅｓｆｏｒＤｉｆｅｒｅｎｔＳｔｒｕｃｔｕｒｅｓｏｆＡｇＦｉｌｍｓＤｅｎｇＬｉｗｅｎ，Ｗａ...

非对称介质环境下深亚波长结构表面波的高效激发

数值模拟了单亚波长狭缝结构在透射方介电常数εd增大时界面上表面波的激发效率。通过调整结构参数和介电常数,表面波的激发效率可以提高近40倍。表面波包括表面等离子体激元波(SPP波)和准柱面波(QCW波)。在不同的缝宽和介电常数条件下,它们对总的表面波激发效率的贡献不同。在近红外波段高介电常数环境下的高激发效率主要归因于SPP波的高效激发。该结构简单易于加工,对于纳米光子器件的制备和应用具有重要作用。

氩等离子体发生装置等熵流动的解析表达式

本文从氩等离子体的简化状态方程出发,结合气体动力学和热力学等基本方程,直接推导出适用于各种氩等离子体发生装置(如等离子体手术刀,微束等离子体焊接和等离子体热化学等)的解析表述式。这些表达式的主要特点是:各物理量密切联系装置的几何尺寸,工程计算和设计简便,各物理量适应宽广工程应用范围,并能给出相当精确的计算结果。

不同预淀积层银膜表面等离子激元波的辐射效率

测量了棱镜／ＬＢ膜／银膜／空气、棱镜／银膜／银膜／空气、棱镜／银膜／空气三种结构在衰减全反射条件下激发的表面等离子激元波由于银膜－空气界面粗糙度而散射到空气中的辐射效率。同时，由散射光强分布计算出表面粗糙度参数即横向相关长度σ和表面波纹深度δ，再由σ和δ计算出理论辐射效率，理论与实验结果相符合。

C/ZrO_2复合纳米粉体的快速制备及其机理研究

采用激波等离子法制备了C/ZrO2纳米复合粉体。通过X衍射、拉曼光谱对复合粉体的晶相组成进行了分析,利用透射电镜(TEM)对复合粉体的粒度、形貌进行了表征,借助热重分析对粉体的组成进行了检测,进一步对粉体的制备机理进行了探讨。结果表明:激波等离子体法可实现C/ZrO2纳米复合粉体的快速制备,所制备出粉体的粒径在10 nm左右,复合粉体中碳为石墨相,约占总量的63%(质量分数),氧化锆占总量的37%,主相为四方相。

单波长光激励SPW测定金属膜厚度与介电常数

采用衰减全反射（ＡＴＲ）技术，单波长激励金属膜表面等离子激元波（ＳＰＷ）的共振吸收峰，在考虑金属膜表面粗糙度的情况下，用非线性最小二乘曲线拟合同时确定出了金属膜厚度与介电常数，并在另一波长下获得验证。

周期结构金属薄膜的奇异光学性质

二维亚波长周期结构金属薄膜具有光透过率异常增强的现象,某些情况下,这种薄膜的峰值透过率比根据传统小孔理论计算的预测值高3个量级.这种结构的金属薄膜在光印刷、近场显微镜和光子器件等方面有着广泛的应用前景,近年来引起了人们的重视.根据目前的实验研究报道,这种周期结构金属薄膜通常利用聚焦离子束刻蚀工艺来获得,器件的光学响应在可见光波段和近红外波段.利用镂空模板法制备了周期结构金属薄膜.实验表明,制得的器件在红外波段也具有透过率异常增强的现象,且利用这种方法易于获得大面积对称结构和串联结构的器件.

多孔氧化铝膜的制备及其光学性质

提出了一种制备具有周期结构金属薄膜的新方法---阳极氧化法制备多孔氧化铝膜.以草酸为电解液,制备出了几种表面孔径不同的多孔氧化铝膜,并在其表面镀银制得样品.用场发射扫描电镜观察多孔氧化铝膜的表面形貌,并采用光谱仪测定了样品的透射光谱.研究发现,由于表面等离子激元波(surface plasmon polaritons,SPPs)的作用,在可见光波段观察到了透过率异常增强现象.

Outer membrane VDAC1 controls permeability transition of the inner mitochondrial membrane in cellulo during stress-induced apoptosis

Voltage-dependent anion channel （VDAC）I is the main channel of the mitochondrial outer membrane （MOM） and it has been proposed to be part of the permeability transition pore （PTP）, a putative multiprotein complex candidate agent of the mitochondrial permeability transition （MPT）. Working at the single live cell level, we found that overexpression of VDAC1 triggers MPT at the mitochondrial inner membrane （MIM）. Conversely, silencing VDAC1 ex- pression results in the inhibition of MPT caused by selenite-induced oxidative stress. This MOM-MIM crosstalk was modulated by Cyclosporin A and mitochondrial Cyclophilin D, but not by Bcl-2 and BcI-XL, indicative of PTP operation. VDAC1-dependent MPT engages a positive feedback loop involving reactive oxygen species and p38-MAPK, and secondarily triggers a canonical apoptotic response including Bax activation, cytochrome e release and caspase 3 activation. Our data thus support a model of the PTP complex involving VDAC1 at the MOM, and indicate that VDACl-dependent MPT is an upstream mechanism playing a causal role in oxidative stress-induced apoptosis.

Solitary Waves in Relativistic Electromagnetic Plasma

Solitary waves in relativistic electromagnetic plasmas are obtained numerically. The longitudinal momentum of electrons has been taken into account in the problem. It is found that in the moving frame with electromagnetic field propagating the solitary waves can exist in both cases, where the vector potential frequency is larger or smaller than the plasma characteristic frequency.

The Design of the Microwave Exciter for Klystron

To carry out lower hybrid wave heating and current drive plasma experiment on tokamak, we need mega-watt order of microwave power generated by the parallel-running klystrons. Those klystrons must be driven by the microwave exciter. Now our microwave exciter is used for many years and its performance is decreased very much. It can not satisfy any more the hybrid wave heating and current drive plasma experiment. So we set out to design a new microwave exciter that is consist of the microwave solid components, amplitudestabilization control, modularization design with multitude-outputs, microwave phase control in order to satisfy the demand of the different work in the hybrid wave heating and current drive plasma experiment.