2015
DOI: 10.1063/1.4929865
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A time domain based method for the accurate measurement of Q-factor and resonance frequency of microwave resonators

Abstract: We present a novel method to determine the resonant frequency and quality factor of microwave resonators which is faster, more stable, and conceptually simpler than the yet existing techniques. The microwave resonator is irradiated at a frequency away from its resonance. It then emits an exponentially decaying radiation at its eigen-frequency when the excitation is rapidly switched off. The emission is down-converted with a microwave mixer, digitized and its Fourier transformation (FT) directly yields the reso… Show more

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Cited by 14 publications
(32 citation statements)
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“…We note at this point that the use of FBO differs conceptually from our previous time domain method in Ref. 25: the present method acts as if two independent frequency sources were present with adjustable frequencies that allows the use of a high IF. In the previous work, the same LO was used to irradiate and downconvert the transient signal.…”
Section: Blockmentioning
confidence: 81%
See 3 more Smart Citations
“…We note at this point that the use of FBO differs conceptually from our previous time domain method in Ref. 25: the present method acts as if two independent frequency sources were present with adjustable frequencies that allows the use of a high IF. In the previous work, the same LO was used to irradiate and downconvert the transient signal.…”
Section: Blockmentioning
confidence: 81%
“…Standard deviations, σ (Q) and σ (f 0 ), of the relevant data are determined from the conventional definitions and the result for the present method is also given in Table II. Table II shows that all methods, including our previous transient work 25 , provide a δ (Q) ≈ δ (f 0 ) ≈ 10 −3 . In contrast, when normalized to a 1 second measurement time, the present FBO transient based method yields an order of magnitude improvement of δ (Q) = δ (f 0 ) ≈ 6 × 10 −5 .…”
Section: The Error Of the Resonator Measurementsmentioning
confidence: 94%
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“…where Q and ∆f are the mean values of Q and the resonator bandwidth ∆f , respectively. Q = f 0 /∆f , where f 0 is the resonator frequency 30 . We note that the error of f 0 is not σ(f 0 )/f 0 as it would be intuitive at first sight.…”
Section: Introductionmentioning
confidence: 99%