Title :
Probability Distribution of the Quality Factor of a Mode-Stirred Reverberation Chamber
Author :
Arnaut, L.R. ; Gradoni, Gabriele
Author_Institution :
Dept. of Electr. & Electron. Eng., Imperial Coll. of Sci., Technol. & Med., London, UK
Abstract :
We derive a probability distribution, confidence intervals and statistics of the quality (Q) factor of an arbitrarily shaped mode-stirred reverberation chamber, based on ensemble distributions of an idealized random cavity field with assumed perfect stir efficiency. It is shown that Q exhibits a Fisher-Snedecor F-distribution whose degrees of freedom are governed by the number of simultaneously excited cavity modes per stir state. The most probable value of Q is shown to be between a fraction 2/9 and 1 of its mean value, and between a fraction 4/9 and 1 of its asymptotic mean (composite Q) value. The arithmetic mean value is found to exceed the values of most other theoretical metrics for centrality of Q. For a rectangular cavity, we retrieve the known asymptotic expression for Q in the limit of a highly overmoded regime.
Keywords :
Q-factor; reverberation chambers; statistical distributions; Fisher-Snedecor F-distribution; Q factor; arithmetic mean value; asymptotic mean value; composite Q value; mode-stirred reverberation chamber; probability distribution; quality factor; rectangular cavity; Boundary conditions; Cavity resonators; Magnetic resonance; Probability distribution; Q factor; Reverberation chamber; Standards; Cavity resonators; probability distribution; quality factor; reverberation chamber; statistical modelling;
Journal_Title :
Electromagnetic Compatibility, IEEE Transactions on
DOI :
10.1109/TEMC.2012.2213257
