UFSD Test with Proton Beam by Using CFD Method

Detecting the charge particles at Giga hertz rate is one of the applications of UFSD (Ultra-Fast Silicon Detectors). The UFSD test in front of the proton beam to count the beam particles and use it for a more precise Dose Delivery System for the treatment of the cancerous tumor by charge particles c...

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Main Authors: M. Fadavi Mazinani, M. Khazaee Fadafan, A.A. Mowlavi
Format: Article
Language:fas
Published: Nuclear Science and Technology Research Institute 2023-09-01
Series:مجله علوم و فنون هسته‌ای
Subjects:
Online Access:https://jonsat.nstri.ir/article_1547_d9fb03e8aa6fa391bff544117d39c959.pdf
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author M. Fadavi Mazinani
M. Khazaee Fadafan
A.A. Mowlavi
author_facet M. Fadavi Mazinani
M. Khazaee Fadafan
A.A. Mowlavi
author_sort M. Fadavi Mazinani
collection DOAJ
description Detecting the charge particles at Giga hertz rate is one of the applications of UFSD (Ultra-Fast Silicon Detectors). The UFSD test in front of the proton beam to count the beam particles and use it for a more precise Dose Delivery System for the treatment of the cancerous tumor by charge particles can become an effective step for the development of cancer treatment. In fact, this assessment is a prerequisite and guarantees the use of these detectors in the dose delivery system. In this regard, the best method for time measurement, which was CFD, was chosen. MATLAB software was used to measure and analyze the UFSD output signals. The results of the 50-μm-thick UFSD test and the various geometries that we performed in several different experiments at the CNAO Cancer Treatment Center in Italy, as well as the data obtained at the laboratory of CERN accelerator in Germany, were analyzed by the CFD method. The results of many different runs of programs in MATLAB for many registered signals show: 1- These sensors are reliable to count the proton particles in Giga hertz rate. 2-The CFD devices could be used to record the UFSD output signals. Therefore, they can be used in the correction of the dose delivery system as a counter for the proton number of the proton beam.
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spelling doaj.art-a1b6bda0beb2457f8102bdb10e6e78b22024-05-27T12:49:48ZfasNuclear Science and Technology Research Instituteمجله علوم و فنون هسته‌ای1735-18712676-58612023-09-01443495510.24200/nst.2022.1131.17471547UFSD Test with Proton Beam by Using CFD MethodM. Fadavi Mazinani0M. Khazaee Fadafan1A.A. Mowlavi2Department of Electrical Engineering, Technical and Vocational University, P.O.BOX: 1435763811, Tehran – IranDepartment of Electrical Engineering, Technical and Vocational University, P.O.BOX: 1435763811, Tehran – IranDepartment of Physics, Faculty of Science, Ferdowsi University of Mashhad, Postal Code: 9177948974, Mashhad - IranDetecting the charge particles at Giga hertz rate is one of the applications of UFSD (Ultra-Fast Silicon Detectors). The UFSD test in front of the proton beam to count the beam particles and use it for a more precise Dose Delivery System for the treatment of the cancerous tumor by charge particles can become an effective step for the development of cancer treatment. In fact, this assessment is a prerequisite and guarantees the use of these detectors in the dose delivery system. In this regard, the best method for time measurement, which was CFD, was chosen. MATLAB software was used to measure and analyze the UFSD output signals. The results of the 50-μm-thick UFSD test and the various geometries that we performed in several different experiments at the CNAO Cancer Treatment Center in Italy, as well as the data obtained at the laboratory of CERN accelerator in Germany, were analyzed by the CFD method. The results of many different runs of programs in MATLAB for many registered signals show: 1- These sensors are reliable to count the proton particles in Giga hertz rate. 2-The CFD devices could be used to record the UFSD output signals. Therefore, they can be used in the correction of the dose delivery system as a counter for the proton number of the proton beam.https://jonsat.nstri.ir/article_1547_d9fb03e8aa6fa391bff544117d39c959.pdfultra-fast silicon detectors (ufsd)dose delivery system (dds)time measurementproton therapy
spellingShingle M. Fadavi Mazinani
M. Khazaee Fadafan
A.A. Mowlavi
UFSD Test with Proton Beam by Using CFD Method
مجله علوم و فنون هسته‌ای
ultra-fast silicon detectors (ufsd)
dose delivery system (dds)
time measurement
proton therapy
title UFSD Test with Proton Beam by Using CFD Method
title_full UFSD Test with Proton Beam by Using CFD Method
title_fullStr UFSD Test with Proton Beam by Using CFD Method
title_full_unstemmed UFSD Test with Proton Beam by Using CFD Method
title_short UFSD Test with Proton Beam by Using CFD Method
title_sort ufsd test with proton beam by using cfd method
topic ultra-fast silicon detectors (ufsd)
dose delivery system (dds)
time measurement
proton therapy
url https://jonsat.nstri.ir/article_1547_d9fb03e8aa6fa391bff544117d39c959.pdf
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