Cargando…
Operational performance of the machine protection systems of the Large Hadron Collider during Run 2 and lessons learnt for the LIU/HL-LHC era
The Large Hadron Collider (LHC) has successfully completed its second operational run in December 2018. To allow for the completion of the diverse physics program at 6.5 TeV, the machine has been routinely operating with stored beam energies up to 300 MJ per beam during high intensity proton runs as...
Autores principales: | , , , , , , , , , , , , , , , , , , , , , |
---|---|
Lenguaje: | eng |
Publicado: |
2019
|
Materias: | |
Acceso en línea: | https://dx.doi.org/10.18429/JACoW-IPAC2019-THPRB031 http://cds.cern.ch/record/2692795 |
_version_ | 1780964022889218048 |
---|---|
author | Zerlauth, Markus Antoine, Alain Bartmann, Wolfgang Bracco, Chiara Carlier, Etienne Charifoulline, Zinour Denz, Reiner Goddard, Brennan Lechner, Anton Magnin, Nicolas Martin, Christophe Mompo, Richard Redaelli, Stefano Romera, Iván Salvachua, Belen Schmidt, Ruediger Uythoven, Jan Verweij, Arjan Wenninger, Jorg Wiesner, Christoph Wollmann, Daniel Zamantzas, Christos |
author_facet | Zerlauth, Markus Antoine, Alain Bartmann, Wolfgang Bracco, Chiara Carlier, Etienne Charifoulline, Zinour Denz, Reiner Goddard, Brennan Lechner, Anton Magnin, Nicolas Martin, Christophe Mompo, Richard Redaelli, Stefano Romera, Iván Salvachua, Belen Schmidt, Ruediger Uythoven, Jan Verweij, Arjan Wenninger, Jorg Wiesner, Christoph Wollmann, Daniel Zamantzas, Christos |
author_sort | Zerlauth, Markus |
collection | CERN |
description | The Large Hadron Collider (LHC) has successfully completed its second operational run in December 2018. To allow for the completion of the diverse physics program at 6.5 TeV, the machine has been routinely operating with stored beam energies up to 300 MJ per beam during high intensity proton runs as well as being frequently reconfigured to allow for special physics runs and important machine development studies. No major damage has incurred to the accelerator equipment throughout the run thanks to the excellent performance of the various machine protection systems. However, a number of important observations and new failure scenarios have been identified, which have been studied experimentally as well as through detailed simulations. In this contribution we provide an overview of the operational performance of the machine protection systems throughout Run 2 as well as the important lessons learnt that will impact consolidation actions and future designs of the machine protection systems for the LIU/HL-LHC era. |
id | oai-inspirehep.net-1745726 |
institution | Organización Europea para la Investigación Nuclear |
language | eng |
publishDate | 2019 |
record_format | invenio |
spelling | oai-inspirehep.net-17457262022-04-08T07:37:52Zdoi:10.18429/JACoW-IPAC2019-THPRB031http://cds.cern.ch/record/2692795engZerlauth, MarkusAntoine, AlainBartmann, WolfgangBracco, ChiaraCarlier, EtienneCharifoulline, ZinourDenz, ReinerGoddard, BrennanLechner, AntonMagnin, NicolasMartin, ChristopheMompo, RichardRedaelli, StefanoRomera, IvánSalvachua, BelenSchmidt, RuedigerUythoven, JanVerweij, ArjanWenninger, JorgWiesner, ChristophWollmann, DanielZamantzas, ChristosOperational performance of the machine protection systems of the Large Hadron Collider during Run 2 and lessons learnt for the LIU/HL-LHC eraAccelerators and Storage RingsThe Large Hadron Collider (LHC) has successfully completed its second operational run in December 2018. To allow for the completion of the diverse physics program at 6.5 TeV, the machine has been routinely operating with stored beam energies up to 300 MJ per beam during high intensity proton runs as well as being frequently reconfigured to allow for special physics runs and important machine development studies. No major damage has incurred to the accelerator equipment throughout the run thanks to the excellent performance of the various machine protection systems. However, a number of important observations and new failure scenarios have been identified, which have been studied experimentally as well as through detailed simulations. In this contribution we provide an overview of the operational performance of the machine protection systems throughout Run 2 as well as the important lessons learnt that will impact consolidation actions and future designs of the machine protection systems for the LIU/HL-LHC era.CERN-ACC-2019-240oai:inspirehep.net:17457262019 |
spellingShingle | Accelerators and Storage Rings Zerlauth, Markus Antoine, Alain Bartmann, Wolfgang Bracco, Chiara Carlier, Etienne Charifoulline, Zinour Denz, Reiner Goddard, Brennan Lechner, Anton Magnin, Nicolas Martin, Christophe Mompo, Richard Redaelli, Stefano Romera, Iván Salvachua, Belen Schmidt, Ruediger Uythoven, Jan Verweij, Arjan Wenninger, Jorg Wiesner, Christoph Wollmann, Daniel Zamantzas, Christos Operational performance of the machine protection systems of the Large Hadron Collider during Run 2 and lessons learnt for the LIU/HL-LHC era |
title | Operational performance of the machine protection systems of the Large Hadron Collider during Run 2 and lessons learnt for the LIU/HL-LHC era |
title_full | Operational performance of the machine protection systems of the Large Hadron Collider during Run 2 and lessons learnt for the LIU/HL-LHC era |
title_fullStr | Operational performance of the machine protection systems of the Large Hadron Collider during Run 2 and lessons learnt for the LIU/HL-LHC era |
title_full_unstemmed | Operational performance of the machine protection systems of the Large Hadron Collider during Run 2 and lessons learnt for the LIU/HL-LHC era |
title_short | Operational performance of the machine protection systems of the Large Hadron Collider during Run 2 and lessons learnt for the LIU/HL-LHC era |
title_sort | operational performance of the machine protection systems of the large hadron collider during run 2 and lessons learnt for the liu/hl-lhc era |
topic | Accelerators and Storage Rings |
url | https://dx.doi.org/10.18429/JACoW-IPAC2019-THPRB031 http://cds.cern.ch/record/2692795 |
work_keys_str_mv | AT zerlauthmarkus operationalperformanceofthemachineprotectionsystemsofthelargehadroncolliderduringrun2andlessonslearntfortheliuhllhcera AT antoinealain operationalperformanceofthemachineprotectionsystemsofthelargehadroncolliderduringrun2andlessonslearntfortheliuhllhcera AT bartmannwolfgang operationalperformanceofthemachineprotectionsystemsofthelargehadroncolliderduringrun2andlessonslearntfortheliuhllhcera AT braccochiara operationalperformanceofthemachineprotectionsystemsofthelargehadroncolliderduringrun2andlessonslearntfortheliuhllhcera AT carlieretienne operationalperformanceofthemachineprotectionsystemsofthelargehadroncolliderduringrun2andlessonslearntfortheliuhllhcera AT charifoullinezinour operationalperformanceofthemachineprotectionsystemsofthelargehadroncolliderduringrun2andlessonslearntfortheliuhllhcera AT denzreiner operationalperformanceofthemachineprotectionsystemsofthelargehadroncolliderduringrun2andlessonslearntfortheliuhllhcera AT goddardbrennan operationalperformanceofthemachineprotectionsystemsofthelargehadroncolliderduringrun2andlessonslearntfortheliuhllhcera AT lechneranton operationalperformanceofthemachineprotectionsystemsofthelargehadroncolliderduringrun2andlessonslearntfortheliuhllhcera AT magninnicolas operationalperformanceofthemachineprotectionsystemsofthelargehadroncolliderduringrun2andlessonslearntfortheliuhllhcera AT martinchristophe operationalperformanceofthemachineprotectionsystemsofthelargehadroncolliderduringrun2andlessonslearntfortheliuhllhcera AT momporichard operationalperformanceofthemachineprotectionsystemsofthelargehadroncolliderduringrun2andlessonslearntfortheliuhllhcera AT redaellistefano operationalperformanceofthemachineprotectionsystemsofthelargehadroncolliderduringrun2andlessonslearntfortheliuhllhcera AT romeraivan operationalperformanceofthemachineprotectionsystemsofthelargehadroncolliderduringrun2andlessonslearntfortheliuhllhcera AT salvachuabelen operationalperformanceofthemachineprotectionsystemsofthelargehadroncolliderduringrun2andlessonslearntfortheliuhllhcera AT schmidtruediger operationalperformanceofthemachineprotectionsystemsofthelargehadroncolliderduringrun2andlessonslearntfortheliuhllhcera AT uythovenjan operationalperformanceofthemachineprotectionsystemsofthelargehadroncolliderduringrun2andlessonslearntfortheliuhllhcera AT verweijarjan operationalperformanceofthemachineprotectionsystemsofthelargehadroncolliderduringrun2andlessonslearntfortheliuhllhcera AT wenningerjorg operationalperformanceofthemachineprotectionsystemsofthelargehadroncolliderduringrun2andlessonslearntfortheliuhllhcera AT wiesnerchristoph operationalperformanceofthemachineprotectionsystemsofthelargehadroncolliderduringrun2andlessonslearntfortheliuhllhcera AT wollmanndaniel operationalperformanceofthemachineprotectionsystemsofthelargehadroncolliderduringrun2andlessonslearntfortheliuhllhcera AT zamantzaschristos operationalperformanceofthemachineprotectionsystemsofthelargehadroncolliderduringrun2andlessonslearntfortheliuhllhcera |