Closed-form expressions for “chemical theory” of associating mixtures

sion line by almost 2 ⍀ and 0.5᎐0.75 cmrns, respectively. Because the SiO layer has a significantly lower dielectric 2 constant than that of GaAs, its inclusion will result in a smaller capacitance per unit length of the CPS slow-wave electrodes. This results in an increase in the phase velocity of

Figure 4 Measured field patterns for s s 1.5 mm and y s 4 mm: d Ž . Ž . a H plane, b E plane. The parameters are as in Figure 2. solid line, 3.30 GHz; dot-dashed line, 4.03 GHz; dashed line, 4.75 GHz Figure 5 Measured antenna gain versus frequency for the stacked structure and for the single element

Closed form expressions for the Green's functions of a planar microstrip structure on an electrically thin uniaxially anisotropic substrate have been derived. The approach is to first obtain the quasi-dynamic term and refine its accuracy with a correction term valid for higher frequencies. The quasi

## Abstract Closed‐form expressions for the physical optics (PO) field scattered in the far zone by perfectly electrically conducting (PEC) plane angular sectors with a conical‐section boundary are derived in terms of incomplete cylindrical functions (ICFs). The developed representations are very e

## Abstract In this paper, a new set of expressions are presented, which leads to accurate estimation of the mutual admittance and mutual coupling thereof for gap‐coupled circular microstrip antennas. Unlike previous works, the field expressions for both the patches are obtained with respect to one