Assessment of random and systematic errors in millimeter wave dielectric measurement open resonator system and fourier transform spectroscopy

Abstract

A- - Assessment of random and systematic error are performedfor thefirst time on the realpart ofpermittivify (e7 and loss tangent (ran d) of ceramics andpolymers using hvo different measurement systems (which include three measurement techniques). Data measured from the full cavity length variation techniqueand thefrequencyvariation technique using the 60 GW open resonulor system and the Dispersive Fourier Transform Spectroscopy system (DFTS) are being compared and analyzed. Data measured by the frequency variation technique was seen to be more precise thal those measured by the full cavity length variation technique with lower random errors in the specimens measured The e’ of the specimens mosured by the frequency variation technique followed that of the DFTS technique closely with slight difference of 0.02%. Finally, for all the specimens measured in this paper, ihe DFTS was seen to be the most precise insirumentfor measuring the e’ with the lowest random errors in the specimens measured