Conveners:
Didier Claude Contardo(Universite Claude Bernard-Lyon I (FR)), Prof.Philip Patrick Allport(University of Liverpool (GB))
09:00
Welcome and introduction15m
Speakers:
Didier Claude Contardo(Universite Claude Bernard-Lyon I (FR)), Prof.Philip Patrick Allport(University of Liverpool (GB))
Slides
09:15
Accelerator update and CERN perspective45m
Speaker:
Oliver Bruning(CERN)
Slides
10:00
Coffee
30m
10:30
→
12:00
Accelerator and Experiment Interface, Activation and Mitigation
Conveners:
DrHelmut Burkhardt(CERN), Olga Beltramello(CERN), Oliver Bruning(CERN), Wolfram Zeuner(CERN)
10:30
LS2 and LS3: The largest Challenges we Know Today25m
Speaker:
Wolfram Zeuner(CERN)
Slides
11:00
Radiation protection: New Results for LS2 and Beyond25m
Speaker:
Olga Beltramello(CERN)
Slides
11:30
HL-LHC Work Programme and Scheduling25m
Speaker:
MrsIsabel Bejar Alonso(CERN)
Slides
12:00
→
13:00
Lunch
1h
13:00
→
14:20
Experiments, scope and R&D goals
Conveners:
Didier Claude Contardo(Universite Claude Bernard-Lyon I (FR)), Prof.Philip Patrick Allport(University of Liverpool (GB))
13:00
ALICE15m
Speaker:
Werner Riegler(CERN)
Slides
13:20
LHCb15m
Speaker:
Giovanni Passaleva(INFN Florence (IT))
Slides
13:40
ATLAS15m
Speaker:
Ingrid-Maria Gregor(DESY)
Slides
14:00
CMS15m
Speaker:
Prof.Jeremy Mans(University of Minnesota (US))
Slides
14:20
→
15:00
Physics goals and performance reach
Conveners:
Aleandro Nisati(Universita e INFN, Roma I (IT)), Andreas Weiler(CERN), Gavin Salam(CERN), Markus Klute(Massachusetts Inst. of Technology (US))
14:20
Pileup Mitigation at the HL-LHC15m
Speaker:
Pippa Wells(CERN)
Slides
14:40
Forward Detector Performance at the HL-LHC15m
Speaker:
Lindsey Gray(Fermi National Accelerator Lab. (US))
Slides
15:00
→
15:30
Coffee break
30m
15:30
→
18:40
Physics goals and performance reach
Conveners:
Aleandro Nisati(Universita e INFN, Roma I (IT)), Andreas Weiler(CERN), Gavin Salam(CERN), Markus Klute(Massachusetts Inst. of Technology (US))
15:30
Higgs Theory15m
Higgs physics enters a precision era and the High Luminosity run of the LHC will reveal access to an uncharted territory of the Higgs landscape.
Not only will it probe new channels with multiple Higgs bosons, but it will also access rare corners of the phase space when the Higgs is produced in extreme kinematical conditions (high pT or far off-shell) or when it decays (exclusively or inclusively) into light quarks. The importance of these measurements are tantalizing since they will inform on some couplings that control the fate of the EW vacuum as well as the size of the quantum corrections to the Higgs mass and could tell if the Higgs boson is the only source of mass for the elementary particles.