1)Plasmons等离激元
1.The Anomalous Skin-Effect of Plasmons in Metal-state Plasma;金属等离子体中等离激元反常趋肤效应
2.The Numerical Study of Dispersion Relationship and Landau Damping of Longitudinal Relativistic Plasmons;相对论性纵等离激元色散关系和朗道阻尼数值解及其分析
3.The landau damping rate is obtained by solving the dispersion equation of relativistic longitudinal plasmons with the sub-light-velocity numerically.在亚光速区,对处于相对论性振荡的纵等离激元色散方程进行数值求解,得到了朗道阻尼系数的数值解。
英文短句/例句
1.Study on Plasmons Collapse and Turbulence Spectra in Laser-plasma;激光等离子体中等离激元坍塌及湍动谱的研究
2.The Anomalous Skin-Effect of Plasmons in Metal-state Plasma;金属等离子体中等离激元反常趋肤效应
3.Propagation Properties of Subwavelength Plasmonic Waveguide;亚波长等离激元波导传输特性的研究
4.Coupling-induced excitation of a forbidden surface plasmon mode of a gold nanorod耦合诱导的金纳米棒禁戒等离激元模式激发
5.Fabrication of SiN_x:Tb~(3+) Thin Film and Its Coupling with Silver Mediated Surface Plasmon Polaritons;SiN_x:Tb~(3+)薄膜的制备及其与银表面等离激元耦合
6.Studies on Plasmon Characteristics in Semiconductor Symmetric Double Quantum Wells;半导体对称双量子阱中等离激元性质的研究
7.Negative Refraction of Surface Plasmon Wave in Metal/Dielectric Structures;金属/介质结构表面等离激元负折射现象的研究
8.Numerical study of the dispersion laws of the unmagnetized relativistic plasmons;相对论性非磁化等离激元色散关系的数值解
9.The periodically corrugated surface effect on the dispersion relation of surface plasmon polaritons;周期折皱表面对表面等离激元色散关系的影响
10.The molecular sensor based on surface plasmon resonance tuned with liquid crystal利用液晶调制表面等离激元共振的分子传感器
11.Dielectric-loaded surface plasmon polariton studied by using scanning near-field optical microscopy介质加载表面等离激元的近场光学观测
12.Luminescence of SiN_x:Tb~(3+) Film and its Coupling with Silver Mediated Surface Plasmon PolaritonsSiN_x:Tb~(3+)薄膜中Tb~(3+)与银表面等离激元耦合
13.The Numerical Study of Dispersion Relationship and Landau Damping of Longitudinal Relativistic Plasmons;相对论性纵等离激元色散关系和朗道阻尼数值解及其分析
14.A Numerical Study on Metallic Photonic Crystal and Plasmonic Waveguides;金属光子晶体与金属表面等离激元波导的数值研究
15.plasmon decay neutrino process等离子体激元衰变中微子过程
16.Plasmonic Waveguide and Filter Design;表面等离子激元光波导与滤波器设计
17.Research for Characteristics of Surface Plasmon Polaritons on a Infinite Interface无限大界面处表面等离子激元特性研究
18.Progress of beam control based on metal surface plasmon polaritons基于金属表面等离子激元控制光束的新进展
相关短句/例句
Plasmon[英]['pl?z,m?n][美]['pl?z,mɑn]等离子激元
1.It is belived that two scattering peaks are related to coupling modes between plasmon and longitudinal optical phonon for Si-doped GaAs/AlGaAs superlattice.理论分析认为,这两个散射峰是掺杂超晶格的等离子激元与纵光学声子耦合模引起的。
3)magneto-plasmon-polariton磁等离激元
4)Plasmon Polariton等离激元-极化激元
5)plasmon resonance等离激元共振
1.The observed SERS efficiency can be explained in terms of strongly localized plasmon modes relative to the single particle plasmon resonance.其较大的增强因子可归结为高度局域化的等离激元共振。
2.The plasmon resonance peaks of the resulting SiO2@Au@SiO2 could be controlled by changing the thickness of t.结果显示:SiO2@Au@SiO2复合颗粒表面光滑,并保留了金壳的近红外吸收特性;通过改变复合颗粒外层SiO2厚度,可以调节其等离激元共振峰的位置;王水可以有效地去除SiO2@Au@SiO2中的金壳,相应的等离激元共振峰消失。
6)surface plasmon表面等离激元
1.The relations between the phase of the signal beam and the thickness or the refractive index of the sample are systematically simulated, which are the theoretical basis of surface plasmon interferometric microscopy.运用Matlab系统地模拟了信号光相位与样品的厚度和折射率之间的对应关系,为干涉型表面等离激元显微术提供了理论依据,同时证明了基于相位探测的干涉型表面等离激元显微术相比基于强度探测的表面等离激元显微术具有更高的纵向分辨率,而且为生物化学方面的动态变换过程的实时监测提供了一种新方法。
延伸阅读
等离子体激元衰变中微子过程 等离子体中各种形式的波的量子叫作等离子体激元Γ(可看作准粒子)。等离子体激元衰变为一对正、反中微子的过程,称为等离子体激元衰变中微子过程。其反应为Γ→ve+尌e。式中右端的ve+尌e也可推广为vμ+尌μ,vτ+尌τ等,在真空中传播的自由光子,由于能量、动量守恒定律的限制(光子能量等于其动量和光速的乘积),不可能衰变为正、反中微子对。但是对于在等离子体中传播的光子,这种形式的等离子体激元相当于一个具有静止质量的光子,却可以衰变为正、反中微子对。这是由等离子体激元湮没为正、负电子对的电磁作用和由中介玻色子传递的弱作用二者组合起来的过程。这一过程使系统的能量被中微子带走。因为中微子与星体物质的相互作用微弱,所以它们有很强的穿透力,能够迅速逃逸。星体温度愈高,高能量的等离子体激元所占的百分比愈大,由衰变过程损耗的能量也愈大。由于等离子体激元的静止质量随着介质密度增加而增大,所以,在高密度区域内,和其他的星体辐射中微子机制比较,等离子体激元衰变中微子过程是星体中能量损耗的主要过程。中微子过程引起的星体能量损耗对星体的演化有重要作用(见中微子天文学)。
