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Wiley.Modern.Receiver.Front.Ends.Systems.Circuits.
- Modern.Receiver.Front.Ends.Systems.Circuits.and.Integration A very good book about receiver-In recent years, the research and developments in the area of RF and microwave technologies have progressed significantly due to the growing demand for ap
Time-domain(FEFDTD)techniqueforsolvingcomplexelect
- Time-domain [FEFDTD] technique for solving complex electromagnetic problems.rar
RFID-Security
- Radio Frequency Identification [RFID] systems have become popular for automated identification and supply chain applications. This article describes the technical fundamentals of RFID systems and the associated standards. Specifically, we
Radio-frequency-identification
- RFID is an area of automatic identifi cation that is gaining momentum and is considered by some to emerge as one of the most pervasive computing technologies in history. In its simplest form, RFID is a similar concept to bar coding. It is
0000000
- 电磁波产生控制原理,能调节单词波频率从1到1-Control theory of electromagnetic waves generated
0704.1183v2
- It was proposed that perfect invisibility cloaks can be constructed for hiding objects from electromagnetic illumination (Pendry et al., Science 312, p. 1780). The cylindrical cloaks experimentally demonstrated (Schurig et al., Science 314, p. 99
fdtd42
- Matlab code FDTD 2D ( dennis sullivan book )
fdtd1D
- 求解一维电磁场散射 非常准确 非常快 并且可以用来仿真亚波长的的新现象-Solving one-dimensional scattering electromagnetic field very fast and very accurate simulation of sub-wavelength can be used to the new phenomenon
fdtd2D
- 求解二维电磁场散射 非常准确 非常快 并且可以用来仿真亚波长的的新现象-Solving two-dimensional electromagnetic scattering very accurate and very fast simulation can be used to sub-wavelength of the new phenomenon
fdtd3D_pec
- 求解三维电磁场散射 非常准确 非常快 并且可以用来仿真亚波长的的新现象-Solving three-dimensional electromagnetic scattering very accurate and very fast simulation can be used to sub-wavelength of the new phenomenon
fdtd3D_UPML
- 求解三维电磁场散射 非常准确 非常快 并且可以用来仿真亚波长的的新现象-Solving three-dimensional electromagnetic scattering very accurate and very fast simulation can be used to sub-wavelength of the new phenomenon
murmatlab
- 摩尔边界的源码在计算电磁学中有很大应用大家好好学习-Moore border in the calculation of electromagnetic source in the study have significant application study hard everyone! ! !
pmlfdtd
- PML边界的源码在计算电磁学中有很大应用大家好好学习-PML boundary in the calculation of electromagnetic source has great application in the study study hard everyone! ! !
mtlabpml
- 摩尔边界的源码在计算电磁学中有很大应用,matlab源码,大家好好学习-Moore border in the calculation of electromagnetic source has great application in the study, matlab source, study hard everyone! ! !
FDTD_1.2.c
- 本程序是使用有限时域差分法模拟电磁波在光学薄膜中的传输,加入边界条件。运用matlab显示结果-This procedure is the use of FDTD simulation of electromagnetic waves in optical thin films in transmission, add boundary conditions. Shows the results of the use of matlab
FDTD_1.3.c
- 本程序是使用有限时域差分法计算模拟电磁波在光学薄膜中的传输,增加了高斯光源等光源形式。增加边界条件。运用matlab显示结果-This procedure is the use of FDTD method simulation of electromagnetic waves in optical thin films in transmission, an increase of Gaussian light sources, such as the form of light source
FDTD_1.5.c
- 本程序是使用加入边界条件的有限时域差分法计算模拟电磁波在光学薄膜中的传输,可以计算有损耗的介质。运用matlab显示结果-This procedure is the use of boundary conditions add FDTD method simulation of electromagnetic waves in optical thin films in transmission, there is wear and tear can calculate the dielectr
FDTD_2.1
- 本程序是使用有限时域差分法计算模拟电磁波在光学薄膜中的传输,加入边界条件,可以计算加入有损耗介质进行计算模拟,运用Qt技术,运用Qmake进行工程管理。运用matlab显示结果-This procedure is the use of FDTD method simulation of electromagnetic waves in optical thin films in transmission, add the boundary conditions can be calculated
Einstein
- 爱因斯坦是当代最伟大的物理学家。他热爱物理学,把毕生献给了物理学的理论研究。人们称他为20世纪的哥白尼、20世纪的牛顿。 爱因斯坦生长在物理学急剧变革的时期,通过以他为代表的一代物理学家的努力,物理学的发展进入了一个新的历史时期。由伽利略和牛顿建立的古典物理学理论体系,经历了将近200年的发展,到19世纪中叶,由于能量守恒和转化定律的发现,热力学和统计物理学的建立,特别是由于法拉第和麦克斯韦在电磁学上的发现,取得了辉煌的成就。-Einstein is one of the most g
parse
- 关于电磁波散射的时域有限差分法计算程序 很好的-a code about finite difference time domain method for electromagnetic waves scattering