# Cross-spectrum noise measurements at 4 K to minimize power-splitter   anti-correlation effect

**Authors:** Archita Hati, Craig W. Nelson, David Pappas, and David A. Howe

arXiv: 1701.03142 · 2017-01-13

## TL;DR

This paper demonstrates that cooling a power splitter to 4 K effectively reduces thermal noise and eliminates anti-correlation effects in cross-spectrum phase noise measurements of a 300 K oscillator, confirming theoretical predictions.

## Contribution

It provides the first experimental evidence that cryogenic cooling of the power splitter minimizes thermal noise and anti-correlation effects in high-precision phase noise measurements.

## Key findings

- Cooling the splitter to 4 K reduces thermal noise significantly.
- Cryogenic cooling eliminates anti-correlation effects in cross-spectrum measurements.
- Measurements at 77 K show partial anti-correlation consistent with theory.

## Abstract

We report an accurate measurement of the phase noise of a thermally limited electronic oscillator at 300 K. By thermally limited we mean that the white signal-to-noise ratio of the oscillator is at or near the level generated by the thermal noise of the 50 ohm source resistor. The measurement is devoid of the anti-correlation effect that originates from the common mode power splitter in a cross-spectrum technique. The anti-correlation effect is mitigated by cooling the power splitter to a liquid helium temperature (4 K). The measurements in this paper are the first proof of theoretical claims that additive thermal noise from the splitter can be reduced significantly with cryogenic cooling and this can eliminate any anti-correlated noise introduced by use of the two-channel cross-spectrum technique. We also confirm measurements of partial anti-correlation error of (-1.3 +/- 0.6) dB that agree with theory when the splitter is at liquid nitrogen temperature of 77 K.

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Source: https://tomesphere.com/paper/1701.03142