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SLAC Microresonator RF (SMuRF) Electronics: A tone-tracking readout system for superconducting microwave resonator arrays

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arxiv 2208.10523 v1 pith:BF2JHWLE submitted 2022-08-22 physics.ins-det astro-ph.IM

SLAC Microresonator RF (SMuRF) Electronics: A tone-tracking readout system for superconducting microwave resonator arrays

classification physics.ins-det astro-ph.IM
keywords systemsmurfelectronicsreadoutbandwidthcryogenicmicrowaveapplications
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We describe the newest generation of the SLAC Microresonator RF (SMuRF) electronics, a warm digital control and readout system for microwave-frequency resonator-based cryogenic detector and multiplexer systems such as microwave SQUID multiplexers ($\mu$mux) or microwave kinetic inductance detectors (MKIDs). Ultra-sensitive measurements in particle physics and astronomy increasingly rely on large arrays of cryogenic sensors, which in turn necessitate highly multiplexed readout and accompanying room-temperature electronics. Microwave-frequency resonators are a popular tool for cryogenic multiplexing, with the potential to multiplex thousands of detector channels on one readout line. The SMuRF system provides the capability for reading out up to 3328 channels across a 4-8 GHz bandwidth. Notably, the SMuRF system is unique in its implementation of a closed-loop tone-tracking algorithm that minimizes RF power transmitted to the cold amplifier, substantially relaxing system linearity requirements and effective noise from intermodulation products. Here we present a description of the hardware, firmware, and software systems of the SMuRF electronics, comparing achieved performance with science-driven design requirements. We focus in particular on the case of large channel count, low bandwidth applications, but the system has been easily reconfigured for high bandwidth applications. The system described here has been successfully deployed in lab settings and field sites around the world and is baselined for use on upcoming large-scale observatories.

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Cited by 1 Pith paper

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  1. Characterization of the RF Board for microwave SQUID multiplexing readout electronics

    astro-ph.IM 2026-06 unverdicted novelty 2.0

    Characterization measurements confirm that a custom RF frequency-conversion board meets the tone-power windows required for 1000-tone μMUX operation in the AliCPT readout chain.