Axion Dark Matter

Axions are well-motivated dark matter candidates with simple cosmological production mechanisms. They were originally introduced to solve the strong CP problem, but also arise in a wide range of extensions to the Standard Model. This Snowmass white paper summarizes axion phenomenology and outlines n...

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Detalles Bibliográficos
Autores principales: Adams, C.B., Aggarwal, N., Agrawal, A., Balafendiev, R., Bartram, C., Baryakhtar, M., Bekker, H., Belov, P., Berggren, K.K., Berlin, A., Boutan, C., Bowring, D., Budker, D., Caldwell, A., Carenza, P., Carosi, G., Cervantes, R., Chakrabarty, S.S., Chaudhuri, S., Chen, T.Y., Cheong, S., Chou, A., Co, R.T., Conrad, J., Croon, D., D'Agnolo, R.T., Demarteau, M., DePorzio, N., Descalle, M., Desch, K., Di Luzio, L., Diaz-Morcillo, A., Dona, K., Drachnev, I.S., Droster, A., Du, N., Dunne, K., Döbrich, B., Ellis, S.A.R., Essig, R., Fan, J., Foster, J.W., Fry, J.T., Gallo Rosso, A., Barceló, J.M. García, Irastorza, I.G., Gardner, S., Geraci, A.A., Ghosh, S., Giaccone, B., Giannotti, M., Gimeno, B., Grin, D., Grote, H., Guzzetti, M., Awida, M.H., Henning, R., Hoof, S., Hoshino, G., Irsic, V., Irwin, K.D., Jackson, H., Kimball, D.F. Jackson, Jaeckel, J., Jakovcic, K., Jewell, M.J., Kagan, M., Kahn, Y., Khatiwada, R., Knirck, S., Kovachy, T., Krueger, P., Kuenstner, S.E., Kurinsky, N.A., Leane, R.K., Leder, A.F., Lee, C., Lehnert, K.W., Lentz, E.W., Lewis, S.M., Liu, J., Lynn, M., Majorovits, B., Marsh, D.J.E., Maruyama, R.H., McAllister, B.T., Millar, A.J., Miller, D.W., Mitchell, J., Morampudi, S., Mueller, G., Nagaitsev, S., Nardi, E., Noroozian, O., O'Hare, C.A.J., Oblath, N.S., Ouellet, J.L., Pappas, K.M.W., Peiris, H.V., Perez, K., Phipps, A., Pivovaroff, M.J., Quílez, P., Rapidis, N.M., Robles, V.H., Rogers, K.K., Rudolph, J., Ruz, J., Rybka, G., Safdari, M., Safdi, B.R., Safronova, M.S., Salemi, C.P., Schuster, P., Schwartzman, A., Shu, J., Simanovskaia, M., Singh, J., Singh, S., Sinha, K., Sinnis, J.T., Siodlaczek, M., Smith, M.S., Snow, W.M., Sokolov, A.V., Sonnenschein, A., Speller, D.H., Stadnik, Y.V., Sun, C., Sushkov, A.O., Tait, T.M.P., Takhistov, V., Tanner, D.B., Tavecchio, F., Temples, D.J., Thomas, J.H., Tobar, M.E., Toro, N., Tsai, Y.-D., van Assendelft, E.C., van Bibber, K., Vandegar, M., Visinelli, L., Vitagliano, E., Vogel, J.K., Wang, Z., Wickenbrock, A., Winslow, L., Withington, S., Wooten, M., Yang, J., Young, B.A., Yu, F., Zhou, K., Zhou, T.
Lenguaje:eng
Publicado: 2022
Materias:
physics.ins-det
Detectors and Experimental Techniques
hep-ph
Particle Physics - Phenomenology
astro-ph.CO
Astrophysics and Astronomy
hep-ex
Particle Physics - Experiment
Acceso en línea:http://cds.cern.ch/record/2855525
Descripción
Sumario:Axions are well-motivated dark matter candidates with simple cosmological production mechanisms. They were originally introduced to solve the strong CP problem, but also arise in a wide range of extensions to the Standard Model. This Snowmass white paper summarizes axion phenomenology and outlines next-generation laboratory experiments proposed to detect axion dark matter. There are vibrant synergies with astrophysical searches and advances in instrumentation including quantum-enabled readout, high-Q resonators and cavities and large high-field magnets. This white paper outlines a clear roadmap to discovery, and shows that the US is well-positioned to be at the forefront of the search for axion dark matter in the coming decade.

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