Temperature sensitivity of coaxial probe complex permittivity measurements: experimental approach

Abstract

An experimental investigation of the temperature sensitivity of the Teflon dielectric semirigid coaxial probe used in complex permittivity measurements is presented. Measurements are performed over the frequency range extending from 100 MHz to 26.5 GHz using 2.2 mm and 3.6 mm coaxial probes at a number of temperatures. An acute sensitivity of the probe-tip geometry to temperature is revealed, along with its effect on measured complex permittivity. Measurements are further complicated by the nonlinear thermal phase response of the probe, which results in the appearance of hysteresis in the measured complex permittivity during thermal cycling. The potential for removing these errors through temperature correction and the use of the thermally stable probes is discussed. >