Showing papers on "Metamaterial published in 1990"

Electromagnetic waves: Microwave components and devices

Abstract: Part 1 Electromagnetic waves: Maxwell's equations electromagnetic waves in non-conducting media energy flow in an electromagnetic wave electromagnetic waves in conducting materials propagation of waves in plasmas polarization of waves propagation in gyromagnetic media boundary conditions. Part 2 Waves guided by perfectly conducting boundaries: TEM transmission lines reflection of waves by a conducting plane transverse electric waves transverse magnetic waves propagation in a rectangular waveguide power flow in rectangular waveguide higher-order modes in a rectangular waveguide other waveguides. Part 3 Waves with dielectric boundaries: reflection of waves by a dielectric boundary total internal reflection the Brewster angle dielectric waveguides mono-mode and multi-mode optical fibres radomes, windows and optical blooming quasi TEM waveguides non-TEM waveguides. Part 4 Waves with imperfectly conducting boundaries: waves incident normally on a conducting surface transmission through a thin conducting sheet electromagnetic screening waves incident obliquely on a conducting surface losses in transmission lines and waveguides microwave attenuators microwave loads. Part 5 Antennas: magnetic vector potential retarded potentials small electric dipole the reciprocity theorem small magnetic dipole half-wave dipole dipole arrays radiation from apertures slot antennas phased array antennas. Part 6 Coupling between wave-guiding systems: discontinuities broadband matching techniques coupling without change of mode coupling with change of mode coupling by apertures effect of holes in screens on screening effectiveness waveguide directional couplers distributed coupling. Part 7 Electromagnetic resonators and filters: transmission-line resonators cavity resonators effect of resonance on screened enclosures dielectric resonators Fabry-Perot resonators filter theory transmission-line filters waveguide filters optical filters. Part 8 Ferrite devices: microwave properties of ferrites resonance isolators phase shifters and circulators junction circulators Faraday rotation devices edge mode devices YIG filters. Part 9 Solid state microwave devices: semiconductor materials diodes transistors detectors and mixers switches oscillators amplifiers monolithic microwave integrated circuits LEDs and laser diodes. Part 10 Vacuum devices: space-charge waves Klystron amplifiers slow-wave structures travelling wave tubes crossed-field tubes fast-wave devices electron accelerators. Part 11 Microwave measurements: measurement of frequency measurement of power measurement of gain and loss measurement of return loss (part contents).