C. Bartram, C. Boutan, T. Braine, J. H. Buckley, T. J. Caligiure, G. Carosi, A. S. Chou, C. Cisneros, John Clarke, E. J. Daw, N. Du, L. D. Duffy, T. A. Dyson, C. Gaikwad, J. R. Gleason, C. Goodman, M. Goryachev, M. Guzzetti, C. Hanretty, E. Hartman, A. T. Hipp, J. Hoffman, M. Hollister, R. Khatiwada, S. Knirck, C. L. Kuo, E. Lentz, B. T. McAllister, C. Mostyn, K. Murch, N. S. Oblath, M. G. Perry, A. Quiskamp, N. Robertson, L. J Rosenberg, S. Ruppert, G. Rybka, I. Siddiqi, P. Sikivie, J. Sinnis, M. E. Solano, A. Sonnenschein, N. S. Sullivan, D. B. Tanner, M. S. Taubman, M. E. Tobar, M. O. Withers, N. Woollett, D. Zhang
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引用次数: 0
Abstract
We report the results of a QCD axion dark matter search with discovery
ability for Dine-Fischler-Srednicki-Zhitnitsky (DFSZ) axions using an axion
haloscope. Sub-Kelvin noise temperatures are reached with an ultra low-noise
Josephson parametric amplifier cooled by a dilution refrigerator. This work
excludes (with a 90% confidence level) DFSZ axions with masses between 3.27 to
3.34 {\mu}eV, assuming a standard halo model with a local energy density of
0.45 GeV/cc made up 100% of axions.
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