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Overview of ATLAS forward proton detectors: status, performance, and new physics results

A key focus of the physics programme at the LHC is the study of head-on proton-proton collisions. However, an important class of physics can be studied for cases where the protons narrowly miss one another and remain intact. In such cases, the electromagnetic fields surrounding the protons can inter...

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Autor principal: Clawson, Savannah
Lenguaje:eng
Publicado: 2023
Materias:
Acceso en línea:http://cds.cern.ch/record/2877030
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author Clawson, Savannah
author_facet Clawson, Savannah
author_sort Clawson, Savannah
collection CERN
description A key focus of the physics programme at the LHC is the study of head-on proton-proton collisions. However, an important class of physics can be studied for cases where the protons narrowly miss one another and remain intact. In such cases, the electromagnetic fields surrounding the protons can interact producing high-energy photon-photon collisions. Alternatively, interactions mediated by the strong force can also result in intact forward scattered protons, providing probes of quantum chromodynamics (QCD). In order to aid identification and provide unique information about these rare interactions, instrumentation to detect and measure protons scattered through very small angles is installed in the beam pipe far downstream of the interaction point. We describe the ATLAS Forward Proton (AFP) ‘Roman Pot’ detector, including its performance and status. The physics interest, as well as the newest results on photon-induced interactions, are also discussed.
id cern-2877030
institution Organización Europea para la Investigación Nuclear
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publishDate 2023
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spelling cern-28770302023-10-26T19:54:41Zhttp://cds.cern.ch/record/2877030engClawson, SavannahOverview of ATLAS forward proton detectors: status, performance, and new physics resultsParticle Physics - ExperimentA key focus of the physics programme at the LHC is the study of head-on proton-proton collisions. However, an important class of physics can be studied for cases where the protons narrowly miss one another and remain intact. In such cases, the electromagnetic fields surrounding the protons can interact producing high-energy photon-photon collisions. Alternatively, interactions mediated by the strong force can also result in intact forward scattered protons, providing probes of quantum chromodynamics (QCD). In order to aid identification and provide unique information about these rare interactions, instrumentation to detect and measure protons scattered through very small angles is installed in the beam pipe far downstream of the interaction point. We describe the ATLAS Forward Proton (AFP) ‘Roman Pot’ detector, including its performance and status. The physics interest, as well as the newest results on photon-induced interactions, are also discussed.ATL-FWD-PROC-2023-003oai:cds.cern.ch:28770302023-10-26
spellingShingle Particle Physics - Experiment
Clawson, Savannah
Overview of ATLAS forward proton detectors: status, performance, and new physics results
title Overview of ATLAS forward proton detectors: status, performance, and new physics results
title_full Overview of ATLAS forward proton detectors: status, performance, and new physics results
title_fullStr Overview of ATLAS forward proton detectors: status, performance, and new physics results
title_full_unstemmed Overview of ATLAS forward proton detectors: status, performance, and new physics results
title_short Overview of ATLAS forward proton detectors: status, performance, and new physics results
title_sort overview of atlas forward proton detectors: status, performance, and new physics results
topic Particle Physics - Experiment
url http://cds.cern.ch/record/2877030
work_keys_str_mv AT clawsonsavannah overviewofatlasforwardprotondetectorsstatusperformanceandnewphysicsresults