The cross-spectrum experimental method
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The noise of a device under test (DUT) is measured simultaneously with two instruments, each of which contributes its own background. The average cross power spectral density converges to the DUT power spectral density. This method enables the extraction of the DUT noise spectrum, even if it is significantly lower than the background. After a snapshot on practical experiments, we go through the statistical theory and the choice of the estimator. A few experimental techniques are described, with reference to phase noise and amplitude noise in RF/microwave systems and in photonic systems. The set of applications of this method is wide. The final section gives a short panorama on radioastronomy, radiometry, quantum optics, thermometry (fundamental and applied), semiconductor technology, metallurgy, etc. This report is intended as a tutorial, as opposed to a report on advanced research, yet addressed to a broad readership: technicians, practitioners, Ph.D. students, academics, and full-time scientists.
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Forward citations
Cited by 2 Pith papers
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Cross-correlation on a single channel for resistance noise measurements
A single-channel cross-correlation technique for resistance noise measurements is introduced via dual-frequency modulation and software demodulation, achieving accurate spectra and 7 dB SNR gain.
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The Companion of Enrico's Chart for Phase Noise and Two-Sample Variances
A tutorial and user guide compiling known concepts, formulas, and plots into Enrico's Chart for phase noise and Allan-like variances.
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