A new method to measure the unloaded quality factor of superconducting cavities
Abstract
We describe an method that measures the unloaded quality factor Q0, the external quality factor QE, and the cavity detuning ω with a recursive least-squares algorithm. It combines a large number of consecutive measurements to successively improve an estimate of fit parameters that asymptotically converges to the ``real'' values. Exploiting the large amount of data acquired by a digital low-level RF system permits us to reach this asymptotic regime in a moderate time frame of seconds to minutes. Simulations show that the method works both for critically coupled and over-coupled cavities. A new calibration method adresses very tight tolerances of the method on system parameters.
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