Detector alignment studies for the CMS experiment

This thesis presents studies related to track-based alignment for the future CMS experiment at CERN. Excellent geometric alignment is crucial to fully benefit from the outstanding resolution of individual sensors. The large number of sensors makes it difficult in CMS to utilize computationally deman...

Full description

Bibliographic Details
Main Author: Lampén, Tapio
Other Authors: Department of Engineering Physics and Mathematics, Teknillisen fysiikan ja matematiikan osasto, Aalto-yliopisto, Aalto University
Format: Doctoral or Postdoctoral Thesis
Language:English
Published: Helsinki University of Technology 2007
Subjects:
Physics
Electrical engineering
track-based alignment
HIP
CMS
misalignment
CERN
position sensitive particle detectors
Orca
Online Access:https://aaltodoc.aalto.fi/handle/123456789/2856
id ftaaltouniv:oai:aaltodoc.aalto.fi:123456789/2856
record_format openpolar
institution Open Polar
collection Aalto University Publication Archive (Aaltodoc)
op_collection_id ftaaltouniv
language English
topic Physics
Electrical engineering
track-based alignment
HIP
CMS
misalignment
CERN
position sensitive particle detectors
spellingShingle Physics
Electrical engineering
track-based alignment
HIP
CMS
misalignment
CERN
position sensitive particle detectors
Lampén, Tapio
Detector alignment studies for the CMS experiment
topic_facet Physics
Electrical engineering
track-based alignment
HIP
CMS
misalignment
CERN
position sensitive particle detectors
description This thesis presents studies related to track-based alignment for the future CMS experiment at CERN. Excellent geometric alignment is crucial to fully benefit from the outstanding resolution of individual sensors. The large number of sensors makes it difficult in CMS to utilize computationally demanding alignment algorithms. A computationally light alignment algorithm, called the Hits and Impact Points algorithm (HIP), is developed and studied. It is based on minimization of the hit residuals. It can be applied to individual sensors or to composite objects. All six alignment parameters (three translations and three rotations), or their subgroup can be considered. The algorithm is expected to be particularly suitable for the alignment of the innermost part of CMS, the pixel detector, during its early operation, but can be easily utilized to align other parts of CMS also. The HIP algorithm is applied to simulated CMS data and real data measured with a test-beam setup. The simulation studies demonstrate that the algorithm is a promising candidate for the alignment of the pixel detector. The test-beam study shows that the use of the algorithm significantly improves the data measured with genuine CMS hardware. The positioning uncertainties of different parts of CMS have also been systematically estimated. Ready-made scenarios corresponding to these uncertainties have been implemented in the CMS reconstruction software ORCA. These scenarios have been used in the alignment studies. They have also been widely used for more realistic misalignment simulation in the physics performance studies of the CMS collaboration. reviewed
author2 Department of Engineering Physics and Mathematics
Teknillisen fysiikan ja matematiikan osasto
Aalto-yliopisto
Aalto University
format Doctoral or Postdoctoral Thesis
author Lampén, Tapio
author_facet Lampén, Tapio
author_sort Lampén, Tapio
title Detector alignment studies for the CMS experiment
title_short Detector alignment studies for the CMS experiment
title_full Detector alignment studies for the CMS experiment
title_fullStr Detector alignment studies for the CMS experiment
title_full_unstemmed Detector alignment studies for the CMS experiment
title_sort detector alignment studies for the cms experiment
publisher Helsinki University of Technology
publishDate 2007
url https://aaltodoc.aalto.fi/handle/123456789/2856
genre Orca
genre_facet Orca
op_relation Internal report / Helsinki Institute of Physics
2007-02
T. Lampén on behalf of the CMS collaboration, General Alignment Concept of the CMS, Nuclear Instruments and Methods in Physics Research A 566 (2006) 100-103. [article1.pdf] © 2006 Elsevier Science. By permission.
V. Karimäki, T. Lampén, F.-P. Schilling, Track-Based Alignment of Composite Detector Structures, IEEE Transactions on Nuclear Science 53 (6) (2006) 3830-3833. [article2.pdf] © 2006 IEEE. By permission.
V. Karimäki, A. Heikkinen, T. Lampén, T. Lindén, Sensor Alignment by Tracks, in Proceedings of the 2003 Conference for Computing in High Energy and Nuclear Physics, La Jolla, California, USA, eConf C0303241, TULT008, 6 pp. (2003) [arXiv:physics/0306034]. [article3.pdf] © 2003 by authors.
T. Lampén, V. Karimäki, S. Saarinen, O. Buchmüller, Alignment of the Cosmic Rack with the Hits and Impact Points Algorithm, CMS Note 2006/006, CERN, Geneva, Switzerland, 8 pp. (2006). [article4.pdf] © 2006 by authors.
I. Belotelov, O. Buchmüller, I. González Caballero, P. Martínez, C. Martínez-Rivero, F. Matorras, A. Heister, M. Thomas, T. Lampén, V. Valuev, Simulation of Misalignment Scenarios for CMS Tracking Devices, CMS Note 2006/008, CERN, Geneva, Switzerland, 12 pp. (2006). [article5.pdf] © 2006 by authors.
V. Karimäki, T. Lampén, F.-P. Schilling, The HIP Algorithm for Track Based Alignment and its Application to the CMS Pixel Detector, CMS Note 2006/018, CERN, Geneva, Switzerland, 10 pp. (2006). [article6.pdf] © 2006 by authors.
P. Luukka, T. Lampén, L. A. Wendland, S. Czellar, E. Hæggström, J. Härkönen, V. Karimäki, I. Kassamakov, T. Mäenpää, J. Tuominiemi, E. Tuovinen, Test Beam Results of a Proton Irradiated Czochralski Silicon Strip Detector, Nuclear Instruments and Methods in Physics Research A 568 (2006) 72-77. [article7.pdf] © 2006 Elsevier Science. By permission.
978-952-10-3711-5
1455-0563
https://aaltodoc.aalto.fi/handle/123456789/2856
urn:nbn:fi:tkk-009143
_version_ 1810470394067419136
spelling ftaaltouniv:oai:aaltodoc.aalto.fi:123456789/2856 2024-09-15T18:28:58+00:00 Detector alignment studies for the CMS experiment Lampén, Tapio Department of Engineering Physics and Mathematics Teknillisen fysiikan ja matematiikan osasto Aalto-yliopisto Aalto University 2007-04-20 46, [50] application/pdf https://aaltodoc.aalto.fi/handle/123456789/2856 en eng Helsinki University of Technology Teknillinen korkeakoulu Internal report / Helsinki Institute of Physics 2007-02 T. Lampén on behalf of the CMS collaboration, General Alignment Concept of the CMS, Nuclear Instruments and Methods in Physics Research A 566 (2006) 100-103. [article1.pdf] © 2006 Elsevier Science. By permission. V. Karimäki, T. Lampén, F.-P. Schilling, Track-Based Alignment of Composite Detector Structures, IEEE Transactions on Nuclear Science 53 (6) (2006) 3830-3833. [article2.pdf] © 2006 IEEE. By permission. V. Karimäki, A. Heikkinen, T. Lampén, T. Lindén, Sensor Alignment by Tracks, in Proceedings of the 2003 Conference for Computing in High Energy and Nuclear Physics, La Jolla, California, USA, eConf C0303241, TULT008, 6 pp. (2003) [arXiv:physics/0306034]. [article3.pdf] © 2003 by authors. T. Lampén, V. Karimäki, S. Saarinen, O. Buchmüller, Alignment of the Cosmic Rack with the Hits and Impact Points Algorithm, CMS Note 2006/006, CERN, Geneva, Switzerland, 8 pp. (2006). [article4.pdf] © 2006 by authors. I. Belotelov, O. Buchmüller, I. González Caballero, P. Martínez, C. Martínez-Rivero, F. Matorras, A. Heister, M. Thomas, T. Lampén, V. Valuev, Simulation of Misalignment Scenarios for CMS Tracking Devices, CMS Note 2006/008, CERN, Geneva, Switzerland, 12 pp. (2006). [article5.pdf] © 2006 by authors. V. Karimäki, T. Lampén, F.-P. Schilling, The HIP Algorithm for Track Based Alignment and its Application to the CMS Pixel Detector, CMS Note 2006/018, CERN, Geneva, Switzerland, 10 pp. (2006). [article6.pdf] © 2006 by authors. P. Luukka, T. Lampén, L. A. Wendland, S. Czellar, E. Hæggström, J. Härkönen, V. Karimäki, I. Kassamakov, T. Mäenpää, J. Tuominiemi, E. Tuovinen, Test Beam Results of a Proton Irradiated Czochralski Silicon Strip Detector, Nuclear Instruments and Methods in Physics Research A 568 (2006) 72-77. [article7.pdf] © 2006 Elsevier Science. By permission. 978-952-10-3711-5 1455-0563 https://aaltodoc.aalto.fi/handle/123456789/2856 urn:nbn:fi:tkk-009143 Physics Electrical engineering track-based alignment HIP CMS misalignment CERN position sensitive particle detectors G5 Artikkeliväitöskirja text Väitöskirja (artikkeli) Doctoral dissertation (article-based) 2007 ftaaltouniv 2024-06-26T06:37:04Z This thesis presents studies related to track-based alignment for the future CMS experiment at CERN. Excellent geometric alignment is crucial to fully benefit from the outstanding resolution of individual sensors. The large number of sensors makes it difficult in CMS to utilize computationally demanding alignment algorithms. A computationally light alignment algorithm, called the Hits and Impact Points algorithm (HIP), is developed and studied. It is based on minimization of the hit residuals. It can be applied to individual sensors or to composite objects. All six alignment parameters (three translations and three rotations), or their subgroup can be considered. The algorithm is expected to be particularly suitable for the alignment of the innermost part of CMS, the pixel detector, during its early operation, but can be easily utilized to align other parts of CMS also. The HIP algorithm is applied to simulated CMS data and real data measured with a test-beam setup. The simulation studies demonstrate that the algorithm is a promising candidate for the alignment of the pixel detector. The test-beam study shows that the use of the algorithm significantly improves the data measured with genuine CMS hardware. The positioning uncertainties of different parts of CMS have also been systematically estimated. Ready-made scenarios corresponding to these uncertainties have been implemented in the CMS reconstruction software ORCA. These scenarios have been used in the alignment studies. They have also been widely used for more realistic misalignment simulation in the physics performance studies of the CMS collaboration. reviewed Doctoral or Postdoctoral Thesis Orca Aalto University Publication Archive (Aaltodoc)

Similar Items