Open resonator technique for measuring multilayer dielectrics

A new approximate method for predicting the resonant frequencies and for solving the field distribution problem of a cylindrical dielectric resonator (DR) is developed. The model proposed in this paper bridges the gap between rigorous and accurate finite-element or Green function-based numerical met

Figure 5 Normalized main beam gain as a function of parasitic element spacing d sive option. The analysis presented here is for a horizontally polarized feed, suitable for terrestrial communications operating in most common fading conditions. The limitation of this type of approach is the degradati

In this article, a fast and efficient technique for the analysis of a coaxial probe fed dielectric resonator antenna is presented, which is 100 times faster than the previously reported analysis. The method is implemented by manipulating the Green's function such that the source and field terms are

## Abstract The design of a cavity resonator implies to solve the Maxwell equations inside that cavity, respecting the boundary conditions. As a consequence, the resonance frequencies appear as conditions in the solutions of the differential equation involved. The measurement of the complex permitt

A simple technique for simultaneous determination of temperature and OH number density is described, along with characteristic results obtained from measurements using a premixed, hydrogen air flat flame burner. The instrumentation is based upon absorption of resonant radiation from a flowing microw