Design and performance of the ADMX SQUID-based microwave receiver

A. Wagner; C. Hagmann; C. Martin; D.B. Tanner; D. Kinion; G. Carosi; G. Rybka; J. Hoskins; John Clarke; K. van Bibber

arxiv: 1105.4203 · v1 · pith:VCDCUM3Qnew · submitted 2011-05-21 · ⚛️ physics.ins-det · astro-ph.CO· hep-ex

Design and performance of the ADMX SQUID-based microwave receiver

S.J. Asztalos , G. Carosi , C. Hagmann , D. Kinion , K. van Bibber , M. Hotz , L. J Rosenberg , G. Rybka

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A. Wagner J. Hoskins C. Martin N.S. Sullivan D.B. Tanner R. Bradley John Clarke

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classification ⚛️ physics.ins-det astro-ph.COhep-ex

keywords microwavereceiveradmxaxionbandconversiondesignednoise

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The Axion Dark Matter eXperiment (ADMX) was designed to detect ultra-weakly interacting relic axion particles by searching for their conversion to microwave photons in a resonant cavity positioned in a strong magnetic field. Given the extremely low expected axion-photon conversion power we have designed, built and operated a microwave receiver based on a Superconducting QUantum Interference Device (SQUID). We describe the ADMX receiver in detail as well as the analysis of narrow band microwave signals. We demonstrate the sustained use of a SQUID amplifier operating between 812 and 860 MHz with a noise temperature of 1 K. The receiver has a noise equivalent power of 1.1x10^-24 W/sqrt(Hz) in the band of operation for an integration time of 1.8x10^3 s.

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Design and performance of the ADMX SQUID-based microwave receiver

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