MoEDAL experiment - Knowledge

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and aluminium trapping volumes. There are approximately 10 m 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

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In 2012 MoEDAL accuracy surpassed accuracy of similar experiments. A new detector was installed in 2015, but as of 2017 it also did not find any magnetic monopoles, setting new limits on their production cross section. In 2022 they performed a search for magnetic monopoles produced via the

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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".

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Acharya, B.; et al. (MoEDAL Collaboration) (2023). "Search for Highly-Ionizing Particles in pp Collisions During LHC Run-2 Using the Full MoEDAL Detector".

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800 kg of aluminium bars placed around the interaction point, that can trap stable massive particles for later study. Passing these bars through a

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Patrizii, Laura; Zouleikha, Sahnoun; Togo, Vincent (2019). "Searches for cosmic magnetic monopoles: past, present and future".

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Acharya, B.; et al. (MoEDAL Collaboration) (2022). "Search for magnetic monopoles produced via the Schwinger mechanism".

1185: 536:"Search for Magnetic Monopoles with the MoEDAL Forward Trapping Detector in 13 TeV Proton-Proton Collisions at the LHC" 778: 1248: 1268: 237: 1263: 121: 1104: 1349: 1109: 1075: 701: 1344: 1233: 836: 268:. The absence of a positive signal implies direct lower bounds on the mass of possible magnetic monopoles. 945: 940: 920: 139: 1169: 1027: 1022: 910: 158: 1339: 935: 359: 679: 440: 1195: 1056: 817: 230: 178: 1243: 1190: 1051: 1017: 1007: 986: 981: 991: 976: 743: 719: 427: 253: 198: 51: 1012: 547: 500: 378: 8: 1124: 1119: 1114: 1041: 915: 593: 551: 504: 382: 320:

Milton, Kimball A. (2006). "Theoretical and experimental status of magnetic monopoles".

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research board in May 2010, and started its first test deployment in January 2011.

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magnetometer yields a sensitive test for the presence of magnetic monopoles.

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MoEDAL is an international research collaboration whose spokesperson is

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Total Cross Section, Elastic Scattering and Diffraction Dissociation

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Acharya, B.; et al. (MoEDAL Collaboration) (2017).

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Safety of high-energy particle collision experiments

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Plan of the LHC experiments and the preaccelerators.

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"Magnetic monopoles". 236:To detect these particles, MoEDAL uses both 711:European Organization for Nuclear Research 702: 688: 356: 630: 569: 559: 494: 417: 372: 333: 217:MoEDAL shares the cavern at Point 8 with 203: 191:Monopole and Exotics Detector at the LHC 106:Monopole and Exotics Detector At the LHC 616: 533: 480: 453: 411: 405: 1332: 319: 1186:High Luminosity Large Hadron Collider 683: 233:and pseudo-stable massive particles. 208:MoEDAL experiment in LHC IP8 at CERN 1249:The Globe of Science and Innovation 13: 14: 1361: 659: 1282: 1281: 779:Large Electron–Positron Collider 126:Scattering and Neutrino Detector 24: 76:A Large Ion Collider Experiment 586: 561:10.1103/PhysRevLett.118.061801 527: 483:Journal of High Energy Physics 474: 447: 350: 313: 1: 1269:Scientific committees of CERN 271: 212: 1234:Worldwide LHC Computing Grid 287:Phil. Trans. R. Soc. Lond. 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(5 May 2010). 344:10.1088/0034-4885/69/6/R02 229:and other highly ionizing 159:Proton Synchrotron Booster 1277: 1264:Directors-general of CERN 1204: 1178: 1162: 1074: 1000: 954: 900: 816: 777: 718: 360:Rivista del Nuovo Cimento 174: 164: 154: 135: 130: 120: 116:ForwArd Search ExpeRiment 110: 100: 90: 80: 70: 60: 50: 40: 35: 23: 1196:Future Circular Collider 818:Super Proton Synchrotron 671:MoEDAL experiment record 231:stable massive particles 179:Super Proton Synchrotron 46:A Toroidal LHC Apparatus 1191:Compact Linear Collider 827:List of SPS experiments 788:List of LEP experiments 729:List of LHC experiments 540:Physical Review Letters 513:10.1007/JHEP08(2016)067 238:nuclear track detectors 1316:46.235753°N 6.055092°E 435:Cite journal requires 299:10.1098/rsta.2018.0328 209: 1350:Large Hadron Collider 720:Large Hadron Collider 594:"MoEDAL bags a first" 254:University of Alberta 207: 199:Large Hadron Collider 56:Compact Muon Solenoid 17:Large Hadron Collider 1345:Particle experiments 1239:Microcosm exhibition 941:30 cm Bubble Chamber 1321:46.235753; 6.055092 1312: / 955:Linear accelerators 552:2017PhRvL.118f1801A 505:2016JHEP...08..067A 383:1984NCimR...7l...1G 140:Linear accelerators 131:LHC preaccelerators 20: 1258:(2013 documentary) 1001:Other accelerators 936:2 m Bubble Chamber 902:Proton Synchrotron 391:10.1007/BF02724347 293:(2161): 20180328. 210: 197:experiment at the 169:Proton Synchrotron 16: 1295: 1294: 1047:LPI (LIL and EPA) 223:magnetic monopole 184: 183: 155:(not marked) 1357: 1340:CERN experiments 1327: 1326: 1324: 1323: 1322: 1317: 1313: 1310: 1309: 1308: 1305: 1285: 1284: 1259: 1205:Related articles 1153: 1065: 1036: 1013:AC (part of AAC) 1008:AA (part of AAC) 704: 697: 690: 681: 680: 653: 652: 634: 614: 608: 607: 605: 604: 590: 584: 583: 573: 563: 531: 525: 524: 498: 478: 472: 471: 469: 468: 451: 445: 444: 438: 433: 431: 423: 421: 409: 403: 402: 376: 354: 348: 347: 337: 328:(6): 1637–1712. 317: 311: 310: 282: 266:Schwinger effect 195:particle physics 28: 21: 15: 1365: 1364: 1360: 1359: 1358: 1356: 1355: 1354: 1330: 1329: 1320: 1318: 1314: 1311: 1306: 1303: 1301: 1299: 1298: 1296: 1291: 1273: 1257: 1244:Streets in CERN 1200: 1179:Future projects 1174: 1158: 1149: 1070: 1063: 1032: 996: 950: 896: 812: 773: 714: 708: 662: 657: 656: 625:(7895): 63–67. 615: 611: 602: 600: 592: 591: 587: 532: 528: 479: 475: 466: 464: 452: 448: 436: 434: 425: 424: 410: 406: 355: 351: 322:Rep. 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