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MoEDAL experiment

Coordinates: 46°14′09″N 6°03′18″E / 46.235753°N 6.055092°E / 46.235753; 6.055092
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Large Hadron Collider
(LHC)
Plan of the LHC experiments and the preaccelerators.
LHC experiments
ATLASA Toroidal LHC Apparatus
CMSCompact Muon Solenoid
LHCbLHC-beauty
ALICEA Large Ion Collider Experiment
TOTEMTotal Cross Section, Elastic Scattering and Diffraction Dissociation
LHCfLHC-forward
MoEDALMonopole and Exotics Detector At the LHC
FASERForwArd Search ExpeRiment
SNDScattering and Neutrino Detector
LHC preaccelerators
p and PbLinear accelerators for protons (Linac 4) and lead (Linac 3)
(not marked)Proton Synchrotron Booster
PSProton Synchrotron
SPSSuper Proton Synchrotron

MoEDAL (Monopole and Exotics Detector at the LHC) is a particle physics experiment at the Large Hadron Collider (LHC).

MoEDAL experiment in LHC IP8 at CERN

Experiment

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MoEDAL shares the cavern at Point 8 with LHCb, and its prime goal is to directly search for the magnetic monopole[1][2][3] or dyon and other highly ionizing stable massive particles and pseudo-stable massive particles.

To detect these particles, MoEDAL uses both nuclear track detectors and aluminium trapping volumes.[4] There are approximately 10 m2 of nuclear track detectors placed around the interaction point. These suffer characteristic damage due to highly ionizing particles, such as magnetic monopoles or highly electrically charged particles. MoEDAL also has approximately 800 kg of aluminium bars placed around the interaction point, that can trap stable massive particles for later study. Passing these bars through a SQUID magnetometer yields a sensitive test for the presence of magnetic monopoles.

MoEDAL is an international research collaboration whose spokesperson is James Pinfold, from the University of Alberta. It is the seventh experiment at the LHC, was approved and sanctioned by the CERN research board in May 2010, and started its first test deployment in January 2011.[5]

In 2012 MoEDAL accuracy surpassed accuracy of similar experiments. A new detector was installed in 2015,[6] but as of 2017 it also did not find any magnetic monopoles, setting new limits on their production cross section.[7] In 2022 they performed a search for magnetic monopoles produced via the Schwinger effect.[8] The absence of a positive signal implies direct lower bounds on the mass of possible magnetic monopoles.[9]

References

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  1. ^ Patrizii, Laura; Zouleikha, Sahnoun; Togo, Vincent (2019). "Searches for cosmic magnetic monopoles: past, present and future". Phil. Trans. R. Soc. Lond. A. 337 (2161): 20180328. Bibcode:2019RSPTA.37780328P. doi:10.1098/rsta.2018.0328. PMID 31707955.
  2. ^ Milton, Kimball A. (2006). "Theoretical and experimental status of magnetic monopoles". Rep. Prog. Phys. 69 (6): 1637–1712. arXiv:hep-ex/0602040. Bibcode:2006RPPh...69.1637M. doi:10.1088/0034-4885/69/6/R02.
  3. ^ Giacomelli, G. (1984). "Magnetic monopoles". Rivista del Nuovo Cimento. 7 (12): 1–111. arXiv:hep-ex/0002032. Bibcode:1984NCimR...7l...1G. doi:10.1007/BF02724347. S2CID 18553203.
  4. ^ Acharya, B.; et al. (MoEDAL Collaboration) (2023). "Search for Highly-Ionizing Particles in pp Collisions During LHC Run-2 Using the Full MoEDAL Detector". arXiv:2311.06509. {{cite journal}}: Cite journal requires |journal= (help)
  5. ^ Pinfold, J. (5 May 2010). "MoEDAL becomes the LHC's magnificent seventh". CERN Courrier. Retrieved 2016-07-14.
  6. ^ Acharya, B.; et al. (MoEDAL Collaboration) (2016). "Search for magnetic monopoles with the MoEDAL prototype trapping detector in 8 TeV proton-proton collisions at the LHC". Journal of High Energy Physics. 2016 (8): 67. arXiv:1604.06645. Bibcode:2016JHEP...08..067A. doi:10.1007/JHEP08(2016)067. S2CID 5209935.
  7. ^ Acharya, B.; et al. (MoEDAL Collaboration) (2017). "Search for Magnetic Monopoles with the MoEDAL Forward Trapping Detector in 13 TeV Proton-Proton Collisions at the LHC". Physical Review Letters. 118 (6): 061801. Bibcode:2017PhRvL.118f1801A. doi:10.1103/PhysRevLett.118.061801. hdl:10138/178854. PMID 28234515.
  8. ^ "MoEDAL bags a first". CERN. Retrieved 2021-08-01.
  9. ^ Acharya, B.; et al. (MoEDAL Collaboration) (2022). "Search for magnetic monopoles produced via the Schwinger mechanism". Nature. 602 (7895): 63–67. arXiv:2106.11933. Bibcode:2022Natur.602...63A. doi:10.1038/s41586-021-04298-1. PMID 35110756.
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46°14′09″N 6°03′18″E / 46.235753°N 6.055092°E / 46.235753; 6.055092