TY  - JOUR
AU  - Habedank, Martin
TI  - Searches for Dark Matter with the ATLAS Experiment at the LHC
JO  - Proceedings of Science / International School for Advanced Studies
VL  - (TAUP2023)
SN  - 1824-8039
CY  - Trieste
PB  - SISSA
M1  - PUBDB-2025-01968
T2  - 2752271
SP  - 056
PY  - 2024
N1  - cc-by-nc-nd
AB  - The presence of a non-baryonic Dark Matter (DM) component in the Universe is inferred from the observation of its gravitational interaction. If Dark Matter interacts weakly with the Standard Model (SM) it could be produced at the LHC. The ATLAS Collaboration has developed a broad search program for DM candidates in final states with large missing transverse momentum produced in association with other SM particles (light and heavy quarks, photons, Z and h bosons, as well as additional heavy scalar particles) and searches where the Higgs boson provides a portal to Dark Matter, leading to invisible Higgs decays. The results of recent searches on 13 TeV pp data from the LHC, their interplay and interpretation are discussed.
T2  - 18th International Conference on Topics in Astroparticle and Underground Physics
CY  - 28 Aug 2023 - 1 Sep 2023, Vienna (Austria)
Y2  - 28 Aug 2023 - 1 Sep 2023
M2  - Vienna, Austria
KW  - p p: scattering (INSPIRE)
KW  - p p: colliding beams (INSPIRE)
KW  - dark matter: direct detection (INSPIRE)
KW  - dark matter: associated production (INSPIRE)
KW  - dark matter: interaction (INSPIRE)
KW  - transverse momentum: missing-energy (INSPIRE)
KW  - gravitation: interaction (INSPIRE)
KW  - scalar particle: heavy (INSPIRE)
KW  - CERN LHC Coll (INSPIRE)
KW  - ATLAS (INSPIRE)
KW  - photon (INSPIRE)
KW  - Higgs particle: invisible decay (INSPIRE)
KW  - heavy quark (INSPIRE)
KW  - experimental results (INSPIRE)
KW  - 13000 GeV-cms (INSPIRE)
LB  - PUB:(DE-HGF)8 ; PUB:(DE-HGF)16
DO  - DOI:10.22323/1.441.0056
UR  - https://bib-pubdb1.desy.de/record/631456
ER  -