HTS/Ferroelectric microwave phase shifters

This analysis provides the possibility of developing microwave phase shifters based on the dielectric substrate nonlinearity, with the conducting surfaces made of a superconductor. The displacement vector, the dipole moment, polarization, polarizability, susceptibility and relative permittivity concepts are used for ferroelectrics; and for superconductors Bose statistics and the Gorter and the Casimir model for a two-fluid model, London's equations, and the classical skin effect for the normal component of the current are used. A sinusoidal wave solution is found for a planar superconducting transmission line. This solution gives expressions for the phase velocity and attenuation coefficient which are used to characterize the tunability of microwave components. The measured data in the literature have been used to compute the relative phase velocities and phase shift per centimetre versus temperature and the d.c. bias electric field E (kV cm-'). It is shown that with a ferroelectric film of thickness 140 nm, with E, = 2 x lo3 and tan 6 = 1O-3 phase shifts and attenuation of the order of tens of degrees per centimetre and 5.76 x 1O-3 dB cm-', respectively, at 10 GHz can be obtained with tens of millivolts at 4 K.