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Effective field theory analysis of the first LUX dark matter search
- Akerib, DS;
- Alsum, S;
- Araújo, HM;
- Bai, X;
- Balajthy, J;
- Baxter, A;
- Bernard, EP;
- Bernstein, A;
- Biesiadzinski, TP;
- Boulton, EM;
- Boxer, B;
- Brás, P;
- Burdin, S;
- Byram, D;
- Carmona-Benitez, MC;
- Chan, C;
- Cutter, JE;
- de Viveiros, L;
- Druszkiewicz, E;
- Fan, A;
- Fiorucci, S;
- Gaitskell, RJ;
- Ghag, C;
- Gilchriese, MGD;
- Gwilliam, C;
- Hall, CR;
- Haselschwardt, SJ;
- Hertel, SA;
- Hogan, DP;
- Horn, M;
- Huang, DQ;
- Ignarra, CM;
- Jacobsen, RG;
- Jahangir, O;
- Ji, W;
- Kamdin, K;
- Kazkaz, K;
- Khaitan, D;
- Korolkova, EV;
- Kravitz, S;
- Kudryavtsev, VA;
- Larsen, NA;
- Leason, E;
- Lenardo, BG;
- Lesko, KT;
- Liao, J;
- Lin, J;
- Lindote, A;
- Lopes, MI;
- Manalaysay, A;
- Mannino, RL;
- Marangou, N;
- McKinsey, DN;
- Mei, D-M;
- Moongweluwan, M;
- Morad, JA;
- St. J. Murphy, A;
- Naylor, A;
- Nehrkorn, C;
- Nelson, HN;
- Neves, F;
- Nilima, A;
- Oliver-Mallory, KC;
- Palladino, KJ;
- Pease, EK;
- Riffard, Q;
- Rischbieter, GRC;
- Rhyne, C;
- Rossiter, P;
- Shaw, S;
- Shutt, TA;
- Silva, C;
- Solmaz, M;
- Solovov, VN;
- Sorensen, P;
- Sumner, TJ;
- Szydagis, M;
- Taylor, DJ;
- Taylor, R;
- Taylor, WC;
- Tennyson, BP;
- Terman, PA;
- Tiedt, DR;
- To, WH;
- Tvrznikova, L;
- Utku, U;
- Uvarov, S;
- Vacheret, A;
- Velan, V;
- Webb, RC;
- White, JT;
- Whitis, TJ;
- Witherell, MS;
- Wolfs, FLH;
- Woodward, D;
- Xu, J;
- Zhang, C
- et al.
Published Web Location
https://doi.org/10.1103/physrevd.103.122005Abstract
The Large Underground Xenon (LUX) dark matter search was a 250-kg active mass dual-phase time projection chamber that operated by detecting light and ionization signals from particles incident on a xenon target. In December 2015, LUX reported a minimum 90% upper C.L. of 6×10-46 cm2 on the spin-independent WIMP-nucleon elastic scattering cross section based on a 1.4×104 kg·day exposure in its first science run. Tension between experiments and the absence of a definitive positive detection suggest it would be prudent to search for WIMPs outside the standard spin-independent/spin-dependent paradigm. Recent theoretical work has identified a complete basis of 14 independent effective field theory (EFT) operators to describe WIMP-nucleon interactions. In addition to spin-independent and spin-dependent nuclear responses, these operators can produce novel responses such as angular-momentum-dependent and spin-orbit couplings. Here we report on a search for all 14 of these EFT couplings with data from LUX's first science run. Limits are placed on each coupling as a function of WIMP mass.
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