Square and triangular lattice two-dimensional (2-D) photonic crystals (PC's
) composed of lossy dielectric rods in air were constructed with a microwav
e bandgap between 4-8 GHz. Fabry-Perot resonators of varying length were co
nstructed from two of these PC's of adjustable thickness and reflectivity.
The quality factor of cavity modes supported in the resonators was found to
increase with increasing PC mirror thickness, but only to a point dictated
by the lossiness of the dielectric rods. A 2-D periodic Green's function s
imulation was found to model the data accurately and quickly using physical
parameters obtained in separate measurements. Simple rules are developed f
or designing optimal resonators in the presence of dielectric loss.