Measuring VHF Detector Linearity using a Quantum-Based Source, CPEM 2024

Published by National Institute of Standards and Technology | National Institute of Standards and Technology | Metadata Last Checked: June 27, 2025 | Last Modified: 2024-01-30 00:00:00

Data sets for measuring VHF detector linearity using a Josephson Arbitrary Waveform Synthesizer (JAWS). Two instruments are measured: an RF power sensor and a fast ADC. The VHF-JAWS source consists of a chip with 12,810~Josephson junctions located in a cryocooler and driven to produce quantum-based ac waveforms at frequencies up to 50.05~MHz and power up to -19~dBm. We first confirm that the device is operating correctly by measuring the dc offset quantum-locking range (Fig. 2) and then measure the system output power with an RF power sensor (Fig. 3, bottom) and a high-speed digitizer (Fig. 3, top). After removing an overall scale factor, the ten-nanowatt scale differences between the programmed JAWS values and the measured values (Fig. 3, top and bottom) indicate better than $\pm$0.5~$\%$ DUT linearity for frequencies in the VHF band.

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Complete Metadata

bureauCode	[ "006:55" ]
identifier	ark:/88434/mds2-3155
issued	2024-02-13
landingPage	https://data.nist.gov/od/id/mds2-3155
language	[ "en" ]
programCode	[ "006:045" ]
theme	[ "Electronics:Superconducting electronics", "Metrology:Electrical/electromagnetic metrology" ]