Testing pALPIDE sensors for particle detection and Characterization of a Laser beam using a webcam CMOS sensor

dc.contributor.advisorGago Medina, Alberto Martín
dc.contributor.authorSoncco Meza, Carlos
dc.date.accessioned2023-01-16T15:00:14Z
dc.date.available2023-01-16T15:00:14Z
dc.date.created2022
dc.date.issued2023-01-16
dc.description.abstractThe upgrade program of the Large Hadron Collider (LHC) was implemented during the second Long Shutdown program (2019/2020). For this program, the ALICE Collaboration (A Large Ion Collider Experiment) proposed, among others, a new detector called Muon Forward Tracker (MFT). The primary goal of the MFT detector, installed on December 2021 and located between the Inner Tracker System (ITS) and the Muon Spectrometer, is to improve the capability of vertex reconstruction. The MFT is equipped with the same pixel sensors used for the ITS upgrade. These sensors are the ALICE Pixel Detectors (ALPIDE), a kind of monolithic active pixel sensor. The MFT is composed of five arrays of pixel sensors which are configured as parallel discs covering −3.6 < η < −2.45. Some prototypes were designed in order to achieve the final version of the ALPIDE, such as the pALPIDE family, which was divided into three versions (i.e., pALPIDE-1,2,3). The ALICE upgrade also included a new system for the data taking and simulation called Online-offline (O2) to replace AliRoot. We designed the geometry of two non-active parts of the MFT and included them in the O2 system. The first goal of this thesis is focused on the characterization of the pALPIDE-2. This sensor is segmented into four groups corresponding to four types of pixels. This characterization includes the test of analogue and digital. According to these tests, we identified a group of pixels that do not work correctly. The threshold scan tests showed the threshold level in each pixel is influenced by the input capacitance according to its n-well size and the surrounding area. Also, we studied the response of the pALPIDE-2 when it was exposed to a soft x-ray source, varying the distance between them. This test showed that the hit count changed according to the inverse square of the distance. iv The second goal of this thesis was to implement a low-cost tool based on a CMOS sensor to characterize laser beams. This tool comprises a Raspberry, a Pi Camera with a pitch size of 1.4 µm, and an optical system. To test the accuracy of the results of this tool, we made similar measurements with other sensors. A photodiode and a light-dependent resistor performed these measurements, which showed the spot radius size compatibility. However, the CMOS sensor expressed the highest precision and is a more affordable tool than commercial devices.es_ES
dc.identifier.urihttp://hdl.handle.net/20.500.12404/24005
dc.language.isoenges_ES
dc.publisherPontificia Universidad Católica del Perúes_ES
dc.publisher.countryPEes_ES
dc.rightsinfo:eu-repo/semantics/openAccesses_ES
dc.rights.urihttp://creativecommons.org/licenses/by-sa/2.5/pe/*
dc.subjectColisiones de hadroneses_ES
dc.subjectCMOS (Electrónica)es_ES
dc.subjectLásers en físicaes_ES
dc.subject.ocdehttps://purl.org/pe-repo/ocde/ford#1.03.00es_ES
dc.titleTesting pALPIDE sensors for particle detection and Characterization of a Laser beam using a webcam CMOS sensores_ES
dc.typeinfo:eu-repo/semantics/doctoralThesises_ES
renati.advisor.dni07835422
renati.advisor.orcidhttp://orcid.org/0000-0002-0019-9692es_ES
renati.author.dni41605742
renati.discipline533018es_ES
renati.jurorUras, Antonioes_ES
renati.jurorGago Medina, Alberto Martines_ES
renati.jurorOrtiz Cabello, Omar Hernanes_ES
renati.levelhttps://purl.org/pe-repo/renati/level#doctores_ES
renati.typehttps://purl.org/pe-repo/renati/type#tesises_ES
thesis.degree.disciplineFísicaes_ES
thesis.degree.grantorPontificia Universidad Católica del Perú. Escuela de Posgradoes_ES
thesis.degree.levelDoctoradoes_ES
thesis.degree.nameDoctor en Físicaes_ES

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