Charged Particle Tracking with the Timepix ASIC

A prototype particle tracking telescope has been constructed using Timepix and Medipix ASIC hybrid pixel assemblies as the six sensing planes. Each telescope plane consisted of one 1.4 cm2 assembly, providing a 256x256 array of 55 micron square pixels. The telescope achieved a pointing resolution of...

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Detalles Bibliográficos
Autores principales: Akiba, Kazuyoshi, Artuso, Marina, Badman, Ryan, Borgia, Alessandra, Bates, Richard, Bayer, Florian, van Beuzekom, Martin, Buytaert, Jan, Cabruja, Enric, Campbell, Michael, Collins, Paula, Crossley, Michael, Dumps, Raphael, Eklund, Lars, Esperante, Daniel, Fleta, Celeste, Gallas, Abraham, Gandelman, Miriam, Garofoli, Justin, Gersabeck, Marco, Gligorov, V.V., Gordon, Hamish, Heijne, Erik H.M., Heijne, Veerle, Hynds, Daniel, John, Malcolm, Leflat, Alexander, Ferre Llin, Lourdes, Llopart, Xavi, Lozano, Manuel, Maneuski, Dzmitry, Michel, Thilo, Nicol, Michelle, Needham, Matt, Parkes, Chris, Pellegrini, Giulio, Plackett, Richard, Poikela, Tuomas, Rodrigues, Eduardo, Stewart, Graeme, Wang, Jian-Chun, Xing, Zhou
Lenguaje:eng
Publicado: 2011
Materias:
Detectors and Experimental Techniques
Acceso en línea:https://dx.doi.org/10.1016/j.nima.2011.09.021
http://cds.cern.ch/record/1334880
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author Akiba, Kazuyoshi
Artuso, Marina
Badman, Ryan
Borgia, Alessandra
Bates, Richard
Bayer, Florian
van Beuzekom, Martin
Buytaert, Jan
Cabruja, Enric
Campbell, Michael
Collins, Paula
Crossley, Michael
Dumps, Raphael
Eklund, Lars
Esperante, Daniel
Fleta, Celeste
Gallas, Abraham
Gandelman, Miriam
Garofoli, Justin
Gersabeck, Marco
Gligorov, V.V.
Gordon, Hamish
Heijne, Erik H.M.
Heijne, Veerle
Hynds, Daniel
John, Malcolm
Leflat, Alexander
Ferre Llin, Lourdes
Llopart, Xavi
Lozano, Manuel
Maneuski, Dzmitry
Michel, Thilo
Nicol, Michelle
Needham, Matt
Parkes, Chris
Pellegrini, Giulio
Plackett, Richard
Poikela, Tuomas
Rodrigues, Eduardo
Stewart, Graeme
Wang, Jian-Chun
Xing, Zhou
author_facet Akiba, Kazuyoshi
Artuso, Marina
Badman, Ryan
Borgia, Alessandra
Bates, Richard
Bayer, Florian
van Beuzekom, Martin
Buytaert, Jan
Cabruja, Enric
Campbell, Michael
Collins, Paula
Crossley, Michael
Dumps, Raphael
Eklund, Lars
Esperante, Daniel
Fleta, Celeste
Gallas, Abraham
Gandelman, Miriam
Garofoli, Justin
Gersabeck, Marco
Gligorov, V.V.
Gordon, Hamish
Heijne, Erik H.M.
Heijne, Veerle
Hynds, Daniel
John, Malcolm
Leflat, Alexander
Ferre Llin, Lourdes
Llopart, Xavi
Lozano, Manuel
Maneuski, Dzmitry
Michel, Thilo
Nicol, Michelle
Needham, Matt
Parkes, Chris
Pellegrini, Giulio
Plackett, Richard
Poikela, Tuomas
Rodrigues, Eduardo
Stewart, Graeme
Wang, Jian-Chun
Xing, Zhou
author_sort Akiba, Kazuyoshi
collection CERN
description A prototype particle tracking telescope has been constructed using Timepix and Medipix ASIC hybrid pixel assemblies as the six sensing planes. Each telescope plane consisted of one 1.4 cm2 assembly, providing a 256x256 array of 55 micron square pixels. The telescope achieved a pointing resolution of 2.3 micron at the position of the device under test. During a beam test in 2009 the telescope was used to evaluate in detail the performance of two Timepix hybrid pixel assemblies; a standard planar 300 micron thick sensor, and 285 micron thick double sided 3D sensor. This paper describes a detailed charge calibration study of the pixel devices, which allows the true charge to be extracted, and reports on measurements of the charge collection characteristics and Landau distributions. The planar sensor achieved a best resolution of 4.0 micron for angled tracks, and resolutions of between 4.4 and 11 micron for perpendicular tracks, depending on the applied bias voltage. The double sided 3D sensor, which has significantly less charge sharing, was found to have an optimal resolution of 9.0 micron for angled tracks, and a resolution of 16.0 micron for perpendicular tracks. Based on these studies it is concluded that the Timepix ASIC shows an excellent performance when used as a device for charged particle tracking.
id cern-1334880
institution Organización Europea para la Investigación Nuclear
language eng
publishDate 2011
record_format invenio
spelling cern-13348802023-09-14T05:52:54Zdoi:10.1016/j.nima.2011.09.021http://cds.cern.ch/record/1334880engAkiba, KazuyoshiArtuso, MarinaBadman, RyanBorgia, AlessandraBates, RichardBayer, Florianvan Beuzekom, MartinBuytaert, JanCabruja, EnricCampbell, MichaelCollins, PaulaCrossley, MichaelDumps, RaphaelEklund, LarsEsperante, DanielFleta, CelesteGallas, AbrahamGandelman, MiriamGarofoli, JustinGersabeck, MarcoGligorov, V.V.Gordon, HamishHeijne, Erik H.M.Heijne, VeerleHynds, DanielJohn, MalcolmLeflat, AlexanderFerre Llin, LourdesLlopart, XaviLozano, ManuelManeuski, DzmitryMichel, ThiloNicol, MichelleNeedham, MattParkes, ChrisPellegrini, GiulioPlackett, RichardPoikela, TuomasRodrigues, EduardoStewart, GraemeWang, Jian-ChunXing, ZhouCharged Particle Tracking with the Timepix ASICDetectors and Experimental TechniquesDetectors and Experimental TechniquesA prototype particle tracking telescope has been constructed using Timepix and Medipix ASIC hybrid pixel assemblies as the six sensing planes. Each telescope plane consisted of one 1.4 cm2 assembly, providing a 256x256 array of 55 micron square pixels. The telescope achieved a pointing resolution of 2.3 micron at the position of the device under test. During a beam test in 2009 the telescope was used to evaluate in detail the performance of two Timepix hybrid pixel assemblies; a standard planar 300 micron thick sensor, and 285 micron thick double sided 3D sensor. This paper describes a detailed charge calibration study of the pixel devices, which allows the true charge to be extracted, and reports on measurements of the charge collection characteristics and Landau distributions. The planar sensor achieved a best resolution of 4.0 micron for angled tracks, and resolutions of between 4.4 and 11 micron for perpendicular tracks, depending on the applied bias voltage. The double sided 3D sensor, which has significantly less charge sharing, was found to have an optimal resolution of 9.0 micron for angled tracks, and a resolution of 16.0 micron for perpendicular tracks. Based on these studies it is concluded that the Timepix ASIC shows an excellent performance when used as a device for charged particle tracking.A prototype particle tracking telescope has been constructed using Timepix and Medipix ASIC hybrid pixel assemblies as the six sensing planes. Each telescope plane consisted of one 1.4 cm2 assembly, providing a 256x256 array of 55 micron square pixels. The telescope achieved a pointing resolution of 2.3 micron at the position of the device under test. During a beam test in 2009 the telescope was used to evaluate in detail the performance of two Timepix hybrid pixel assemblies; a standard planar 300 micron thick sensor, and 285 micron thick double sided 3D sensor. This paper describes a detailed charge calibration study of the pixel devices, which allows the true charge to be extracted, and reports on measurements of the charge collection characteristics and Landau distributions. The planar sensor achieved a best resolution of 4.0 micron for angled tracks, and resolutions of between 4.4 and 11 micron for perpendicular tracks, depending on the applied bias voltage. The double sided 3D sensor, which has significantly less charge sharing, was found to have an optimal resolution of 9.0 micron for angled tracks, and a resolution of 16.0 micron for perpendicular tracks. Based on these studies it is concluded that the Timepix ASIC shows an excellent performance when used as a device for charged particle tracking.A prototype particle tracking telescope has been constructed using Timepix and Medipix ASIC hybrid pixel assemblies as the six sensing planes. Each telescope plane consisted of one 1.4 cm2 assembly, providing a 256x256 array of 55 micron square pixels. The telescope achieved a pointing resolution of 2.3 micron at the position of the device under test. During a beam test in 2009 the telescope was used to evaluate in detail the performance of two Timepix hybrid pixel assemblies; a standard planar 300 micron thick sensor, and 285 micron thick double sided 3D sensor. This paper describes a detailed charge calibration study of the pixel devices, which allows the true charge to be extracted, and reports on measurements of the charge collection characteristics and Landau distributions. The planar sensor achieved a best resolution of 4.0 micron for angled tracks, and resolutions of between 4.4 and 11 micron for perpendicular tracks, depending on the applied bias voltage. The double sided 3D sensor, which has significantly less charge sharing, was found to have an optimal resolution of 9.0 micron for angled tracks, and a resolution of 16.0 micron for perpendicular tracks. Based on these studies it is concluded that the Timepix ASIC shows an excellent performance when used as a device for charged particle tracking.arXiv:1103.2739LHCB-PUB-2011-010CERN-LHCb-PUB-2011-010CERN-LHCb-PUB-2011-010oai:cds.cern.ch:13348802011-03-14
spellingShingle Detectors and Experimental Techniques
Detectors and Experimental Techniques
Akiba, Kazuyoshi
Artuso, Marina
Badman, Ryan
Borgia, Alessandra
Bates, Richard
Bayer, Florian
van Beuzekom, Martin
Buytaert, Jan
Cabruja, Enric
Campbell, Michael
Collins, Paula
Crossley, Michael
Dumps, Raphael
Eklund, Lars
Esperante, Daniel
Fleta, Celeste
Gallas, Abraham
Gandelman, Miriam
Garofoli, Justin
Gersabeck, Marco
Gligorov, V.V.
Gordon, Hamish
Heijne, Erik H.M.
Heijne, Veerle
Hynds, Daniel
John, Malcolm
Leflat, Alexander
Ferre Llin, Lourdes
Llopart, Xavi
Lozano, Manuel
Maneuski, Dzmitry
Michel, Thilo
Nicol, Michelle
Needham, Matt
Parkes, Chris
Pellegrini, Giulio
Plackett, Richard
Poikela, Tuomas
Rodrigues, Eduardo
Stewart, Graeme
Wang, Jian-Chun
Xing, Zhou
Charged Particle Tracking with the Timepix ASIC
title Charged Particle Tracking with the Timepix ASIC
title_full Charged Particle Tracking with the Timepix ASIC
title_fullStr Charged Particle Tracking with the Timepix ASIC
title_full_unstemmed Charged Particle Tracking with the Timepix ASIC
title_short Charged Particle Tracking with the Timepix ASIC
title_sort charged particle tracking with the timepix asic
topic Detectors and Experimental Techniques
Detectors and Experimental Techniques
url https://dx.doi.org/10.1016/j.nima.2011.09.021
http://cds.cern.ch/record/1334880
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