4.7 Article

Search for dark matter produced in association with bottom or top quarks in root s=13 TeV pp collisions with the ATLAS detector

EUROPEAN PHYSICAL JOURNAL C (2018)

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Journal

EUROPEAN PHYSICAL JOURNAL C
Volume 78, Issue 1, Pages -

Publisher

SPRINGER
DOI: 10.1140/epjc/s10052-017-5486-1

Keywords

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Categories

Physics, Particles & Fields

Funding

  1. ANPCyT, Argentina
  2. YerPhI, Armenia
  3. ARC, Australia
  4. BMWFW, Austria
  5. EWE, Austria
  6. ANAS, Azerbaijan
  7. SSTC, Belarus
  8. CNPq, Brazil
  9. FAPESP, Brazil
  10. NSERC, Canada
  11. NRC, Canada
  12. CFI, Canada
  13. CERN, Chile
  14. CONICYT, Chile
  15. CAS, China
  16. MOST, China
  17. NSFC, China
  18. COLCIENCIAS, Colombia
  19. MSMT CR, Czech Republic
  20. MPO CR, Czech Republic
  21. VSC CR, Czech Republic
  22. DNRF, Denmark
  23. DNSRC, Denmark
  24. IN2P3-CNRS, France
  25. CEA-DSM/IRFU, France
  26. SRNSF, Georgia
  27. BMBF, Germany
  28. HGF, Germany
  29. MPG, Germany
  30. GSRT, Greece
  31. RGC, Hong Kong SAR, China
  32. ISF, Israel
  33. I-CORE, Israel
  34. Benoziyo Center, Israel
  35. INFN, Italy
  36. MEXT, Japan
  37. JSPS, Japan
  38. CNRST, Morocco
  39. NWO, Netherlands
  40. RCN, Norway
  41. MNiSW, Poland
  42. NCN, Poland
  43. FCT, Portugal
  44. MNE/IFA, Romania
  45. IVIES of Russia
  46. NRC KI
  47. Russian Federation
  48. JINR, Serbia
  49. MESTD, Serbia
  50. MSSR, Slovakia
  51. ARRS, Slovenia
  52. MIZS, Slovenia
  53. DST/NRF, South Africa
  54. MINECO, Spain
  55. SRC, Sweden
  56. Wallenberg Foundation, Sweden
  57. SERI, Switzerland
  58. SNSF, Switzerland
  59. Canton of Bern, Switzerland
  60. Geneva, Switzerland
  61. MOST, Taiwan
  62. TAEK, Turkey
  63. STFC, United Kingdom
  64. DOE, United States of America
  65. NSF, United States of America
  66. BCKDF
  67. Canada Council, Canada
  68. CANARIE, Canada
  69. CRC, Canada
  70. Compute Canada, Canada
  71. FQRNT, Canada
  72. Ontario Innovation Trust, Canada
  73. EPLANET
  74. ERC
  75. ERDF
  76. Horizon 2020 and Marie Sklodowska-Curie Actions, European Union
  77. Investissements d'Avenir Labex and Idex, France
  78. ANR, France
  79. Region Auvergne, France
  80. Fondation Partager le Savoir, France
  81. DFG, Germany
  82. AvH Foundation, Germany
  83. Herakleitos
  84. Thales programme
  85. Aristeia programme
  86. EU-ESF
  87. Greek NSRF
  88. BSF, Israel
  89. GIF, Israel
  90. Minerva, Israel
  91. BRF, Norway
  92. CERCA Programme Generalitat de Catalunya, Spain
  93. Generalitat Valenciana, Spain
  94. Royal Society, United Kingdom
  95. Leverhulme Trust, United Kingdom
  96. CERN
  97. ATLAS Tier-1 facilities at TRIUMF (Canada)
  98. NDGF (Denmark, Norway, Sweden)
  99. CC-IN2P3 (France)
  100. KIT/GridKA (Germany)
  101. INFN-CNAF (Italy)
  102. NL-T1 (Netherlands)
  103. PIC (Spain)
  104. ASGC (Taiwan)
  105. RAL (UK)
  106. BNL (USA)
  107. STFC [ST/R002436/1, ST/I005846/1, ST/N000331/1, ST/N000447/1, ST/N000277/1, 1653101, ST/J005606/1, ST/K003666/1, ST/G502304/1, ST/P002439/1, ST/H001158/2, ST/L006162/1, ST/K001361/1, ST/M001431/1, ST/N000420/1, ST/H001158/1, ST/N000404/1, ST/I000143/1, ST/J00488X/1, ST/L005662/1, ST/M503423/1, ST/N000307/1, ST/L001144/1, ST/N000234/1, PP/E002730/1, ST/M006417/1, PP/E000452/1] Funding Source: UKRI
  108. Science and Technology Facilities Council [1334588, 1547240, ST/L005662/1, ST/I000143/1, ST/H001158/2, PP/E000347/1, ST/G502304/1, ST/K003666/1, ST/H001093/2, ST/M503423/1, ST/J005606/1, 1653101, ST/L006162/1, ATLAS, ST/L001144/1, ST/N000307/1, ST/M001431/1, ST/K001329/1 nEDM, ST/N000277/1, ST/J00488X/1, ST/I005846/1, ST/N000447/1, ST/N000331/1, ST/N000420/1, PP/E000452/1, 1659192, ST/H001158/1, ST/N000234/1, ST/K001361/1, ST/M006417/1, PP/E002730/1, ST/H001093/1, ST/N000404/1, 1366825, GRIDPP] Funding Source: researchfish
  109. Direct For Mathematical & Physical Scien [1624739] Funding Source: National Science Foundation

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A search for weakly interacting massive dark matter particles produced in association with bottom or top quarks is presented. Final states containing third-generation quarks and missing transverse momentum are considered. The analysis uses 36.1 fb(-1) of proton proton collision data recorded by the ATLAS experiment at root s = 13 TeV in 2015 and 2016. No significant excess of events above the estimated backgrounds is observed. The results are interpreted in the framework of simplified models of spin-0 dark-matter mediators. For colour-neutral spin-0 mediators produced in association with top quarks and decaying into a pair of dark matter particles, mediator masses below 50 GeV are excluded assuming a dark-matter candidate mass of 1 GeV and unitary couplings. For scalar and pseudoscalar mediators produced in association with bottom quarks, the search sets limits on the production cross-section of 300 times the predicted rate for mediators with masses between 10 and 50 GeV and assuming a dark-matter mass of 1 GeV and unitary coupling. Constraints on colour-charged scalar simplified models are also presented. Assuming a dark-matter particle mass of 35 GeV, mediator particles with mass below 1.1 TeV are excluded for couplings yielding a dark-matter relic density consistent with measurements.

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