1) Goos-Hnchen shift
Goos-Hnchen位移
1.
The influences of the subwavelength layer\'s thickness,magnetic permeability and dielectric permittivity on the Goos-Hnchen shift near the resonant frequency were especially analyzed.
利用传输矩阵法分析一维光子晶体中亚波长缺陷膜对缺陷模频率处Goos-Hnchen位移的调制特性,讨论了亚波长缺陷膜的厚度、磁导率及介电常量对一维光子晶体缺陷模频率处的Goos-Hnchen位移的影响。
2.
The Goos-Hnchen shift of a reflected light beam is computed for three different interfaces which consist of a positive refractive index medium and a negative refractive index medium,a negative refractive index medium and a positive refractive index medium,and two different negative refractive index media,respectively.
分别计算了光由正折射率材料入射到负折射率材料,由负折射率材料入射到正折射率材料,由一种负折射率材料入射到另一种负折射率材料时,反射光束所产生的Goos-Hnchen位移。
2) Goos-Hnchen shift
Goos-Hnchen位移
1.
The Goos-Hnchen shift of uniaxially anisotropic left-handed material film;
单轴各向异性左手材料薄层的Goos-Hnchen位移
2.
Goos-Hnchen shift at interface of nonlinear left/right-handed media;
非线性左右手媒质界面的Goos-Hnchen位移
3.
The Goos-Hnchen shift on the surface of uniaxially anisotropic left-handed materials;
单轴各向异性左手介质表面的Goos-Hnchen位移
3) Goos-H(a|¨)nchen shift
Goos-H(a|¨)nchen位移
4) Goos-Hnchen-like displacement
类Goos-Hnchen位移
5) Goos-Hnchen effect
Goos-Hnchen效应
1.
The influence on normal moveout of total reflected SV-wave by Goos-Hnchen effect at a free surface of stratum;
Goos-Hnchen效应对自由表面全反射SV波校正时差的影响
2.
Goos-Hnchen shift of total reflection wave at interface is derived,and Goos-Hnchen effect of incident beam from double-positive(ε>0,μ>0) and double-negative(ε<0,μ<0) to double-negative(ε<0,μ<0) or single-negative(ε>0,μ<0 or ε<0,μ>0) are discussed.
推导了Goos-Hnchen位移的表达式,讨论了光线从双正介质(电容率ε>0,磁导率μ>0)或双负介质(ε<0,μ<0)中入射到双正介质、双负介质或单负介质(ε>0,μ<0或ε<0,μ>0)界面的Goos-Hnchen效应。
6) Goos-Hnchen shift
Goos-Hnchen位移
1.
IA derivation of Goos-Hnchen shift from the effective penetrati;
利用倏逝波的有效穿透深度推导Goos-Hnchen位移
补充资料:[styrene-(2-vinylpyridine)copolymer]
分子式:
分子量:
CAS号:
性质:学名苯乙烯-2-乙烯吡啶共聚物。微黄色粉末或透明小颗粒晶体。无臭,无味。不溶于水,溶于酸、乙醇、丙酮、氯仿。有抗水、防潮性能,适用于多种药片的包衣等。
分子量:
CAS号:
性质:学名苯乙烯-2-乙烯吡啶共聚物。微黄色粉末或透明小颗粒晶体。无臭,无味。不溶于水,溶于酸、乙醇、丙酮、氯仿。有抗水、防潮性能,适用于多种药片的包衣等。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条