Metu-Defocusing Beamline : A 15-30 Mev Proton Irradiation Facility and Beam Measurement System

Middle East Technical University – Defocusing Beam Line (METU-DBL) project is an irradiation facility providing 15 MeV to 30 MeV kinetic energy protons for testing various high radiation level applications, ranging from Hi-Lumi LHC upgrade, space electronic components to nuclear material research. T...

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Autores principales: Bilge Demirkoz, M, Seckin, Caner, Avaroglu, Akanay, Bulbul, Besna, Uslu, Pelin, Kılıc, Erinc, Orhan, Yusuf, Akcelik, Selen, Yigitoglu, Merve, Saral, Caglar, Duran, Selcen Uzun, Kılıc, Ugur, Efthymiopoulos, Ilias, Poyrazoglu, Anıl Berkay, Albarodi, Abdulrahman, Celik, Nazire
Lenguaje:eng
Publicado: 2020
Materias:
Accelerators and Storage Rings
Acceso en línea:https://dx.doi.org/10.1051/epjconf/202022501008
http://cds.cern.ch/record/2715915
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author Bilge Demirkoz, M
Seckin, Caner
Avaroglu, Akanay
Bulbul, Besna
Uslu, Pelin
Kılıc, Erinc
Orhan, Yusuf
Akcelik, Selen
Yigitoglu, Merve
Saral, Caglar
Duran, Selcen Uzun
Kılıc, Ugur
Efthymiopoulos, Ilias
Poyrazoglu, Anıl Berkay
Albarodi, Abdulrahman
Celik, Nazire
author_facet Bilge Demirkoz, M
Seckin, Caner
Avaroglu, Akanay
Bulbul, Besna
Uslu, Pelin
Kılıc, Erinc
Orhan, Yusuf
Akcelik, Selen
Yigitoglu, Merve
Saral, Caglar
Duran, Selcen Uzun
Kılıc, Ugur
Efthymiopoulos, Ilias
Poyrazoglu, Anıl Berkay
Albarodi, Abdulrahman
Celik, Nazire
author_sort Bilge Demirkoz, M
collection CERN
description Middle East Technical University – Defocusing Beam Line (METU-DBL) project is an irradiation facility providing 15 MeV to 30 MeV kinetic energy protons for testing various high radiation level applications, ranging from Hi-Lumi LHC upgrade, space electronic components to nuclear material research. The project located inside the premises of the TAEA (Turkish Atomic Energy Agency) SANAEM (Saraykoy Nuclear Education and Research Center) close to Ankara, provides users a wide selectable flux menu (105–1010 p/cm2/s). The facility is now being commissioned and the facility will be providing a large test area (20 cm x 15 cm) for material, detector and electronics tests. The proton beam is monitored along the beamline using aluminum oxide screens and the flux and uniformity is measured using three detectors attached to the robotic system for cross- checks. A fiber scintillator detector scans the large irradiation area while small area diamond detector and Timepix3 detector are used for spot checks for calibration. Several samples can be radiated simultaneously inside the irradiation area and the robotic system provides 5 separate holders for samples which can be moved in or out, providing users flexibility for the desired fluence. This talk will first introduce METU- DBL as a radiation test facility, then discuss the radiation monitoring of the beam area and the radiation room, while highlighting how this facility can be used for future testing of materials for radiation tolerance.
id oai-inspirehep.net-1776825
institution Organización Europea para la Investigación Nuclear
language eng
publishDate 2020
record_format invenio
spelling oai-inspirehep.net-17768252020-04-24T20:27:55Zdoi:10.1051/epjconf/202022501008http://cds.cern.ch/record/2715915engBilge Demirkoz, MSeckin, CanerAvaroglu, AkanayBulbul, BesnaUslu, PelinKılıc, ErincOrhan, YusufAkcelik, SelenYigitoglu, MerveSaral, CaglarDuran, Selcen UzunKılıc, UgurEfthymiopoulos, IliasPoyrazoglu, Anıl BerkayAlbarodi, AbdulrahmanCelik, NazireMetu-Defocusing Beamline : A 15-30 Mev Proton Irradiation Facility and Beam Measurement SystemAccelerators and Storage RingsMiddle East Technical University – Defocusing Beam Line (METU-DBL) project is an irradiation facility providing 15 MeV to 30 MeV kinetic energy protons for testing various high radiation level applications, ranging from Hi-Lumi LHC upgrade, space electronic components to nuclear material research. The project located inside the premises of the TAEA (Turkish Atomic Energy Agency) SANAEM (Saraykoy Nuclear Education and Research Center) close to Ankara, provides users a wide selectable flux menu (105–1010 p/cm2/s). The facility is now being commissioned and the facility will be providing a large test area (20 cm x 15 cm) for material, detector and electronics tests. The proton beam is monitored along the beamline using aluminum oxide screens and the flux and uniformity is measured using three detectors attached to the robotic system for cross- checks. A fiber scintillator detector scans the large irradiation area while small area diamond detector and Timepix3 detector are used for spot checks for calibration. Several samples can be radiated simultaneously inside the irradiation area and the robotic system provides 5 separate holders for samples which can be moved in or out, providing users flexibility for the desired fluence. This talk will first introduce METU- DBL as a radiation test facility, then discuss the radiation monitoring of the beam area and the radiation room, while highlighting how this facility can be used for future testing of materials for radiation tolerance.oai:inspirehep.net:17768252020
spellingShingle Accelerators and Storage Rings
Bilge Demirkoz, M
Seckin, Caner
Avaroglu, Akanay
Bulbul, Besna
Uslu, Pelin
Kılıc, Erinc
Orhan, Yusuf
Akcelik, Selen
Yigitoglu, Merve
Saral, Caglar
Duran, Selcen Uzun
Kılıc, Ugur
Efthymiopoulos, Ilias
Poyrazoglu, Anıl Berkay
Albarodi, Abdulrahman
Celik, Nazire
Metu-Defocusing Beamline : A 15-30 Mev Proton Irradiation Facility and Beam Measurement System
title Metu-Defocusing Beamline : A 15-30 Mev Proton Irradiation Facility and Beam Measurement System
title_full Metu-Defocusing Beamline : A 15-30 Mev Proton Irradiation Facility and Beam Measurement System
title_fullStr Metu-Defocusing Beamline : A 15-30 Mev Proton Irradiation Facility and Beam Measurement System
title_full_unstemmed Metu-Defocusing Beamline : A 15-30 Mev Proton Irradiation Facility and Beam Measurement System
title_short Metu-Defocusing Beamline : A 15-30 Mev Proton Irradiation Facility and Beam Measurement System
title_sort metu-defocusing beamline : a 15-30 mev proton irradiation facility and beam measurement system
topic Accelerators and Storage Rings
url https://dx.doi.org/10.1051/epjconf/202022501008
http://cds.cern.ch/record/2715915
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