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Personal Dosimetry in Direct Pulsed Photon Fields with the Dosepix Detector
First investigations regarding dosimetric properties of the hybrid, pixelated, photon-counting Dosepix detector in the direct beam of a pulsed photon field (RQR8) for the personal dose equivalent H p (10) are presented. The influence quantities such as pulse duration and dose rate were varied, and...
| Autores principales: | , , , , , , , , , , , , , , , |
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| Lenguaje: | eng |
| Publicado: |
2021
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| Materias: | |
| Acceso en línea: | https://dx.doi.org/10.1109/TNS.2022.3222544 http://cds.cern.ch/record/2773259 |
| _version_ | 1780971493475221504 |
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| author | Haag, Dennis Schmidt, Sebastian Hufschmidt, Patrick Anton, Gisela Ballabriga, Rafael Behrens, Rolf Campbell, Michael Eberle, Franziska Fuhg, Christian Hupe, Oliver Llopart, Xavier Roth, Jürgen Tlustos, Lukas Wong, Winnie Zutz, Hayo Michel, Thilo |
| author_facet | Haag, Dennis Schmidt, Sebastian Hufschmidt, Patrick Anton, Gisela Ballabriga, Rafael Behrens, Rolf Campbell, Michael Eberle, Franziska Fuhg, Christian Hupe, Oliver Llopart, Xavier Roth, Jürgen Tlustos, Lukas Wong, Winnie Zutz, Hayo Michel, Thilo |
| author_sort | Haag, Dennis |
| collection | CERN |
| description | First investigations regarding dosimetric properties of the hybrid, pixelated, photon-counting Dosepix detector in the direct beam of a pulsed photon field (RQR8) for the personal dose equivalent
H
p
(10)
are presented. The influence quantities such as pulse duration and dose rate were varied, and their responses were compared to the legal limits provided in PTB-A 23.2. The variation of pulse duration at a nearly constant dose rate of about 3.7 Sv/h shows a flat response around 1.0 from 3.6 s down to 2 ms. A response close to 1.0 is achieved for dose rates from 0.07 to 35 Sv/h for both pixel sizes. Above this dose rate, the large pixels (
220 μm
edge length) are below the lower limit. The small pixels (
55 μm
edge length) stay within limits up to 704 Sv/h. The count rate linearity is compared to previous results, confirming the saturating count rate for high dose rates. |
| id | cern-2773259 |
| institution | Organización Europea para la Investigación Nuclear |
| language | eng |
| publishDate | 2021 |
| record_format | invenio |
| spelling | cern-27732592023-02-28T04:24:13Zdoi:10.1109/TNS.2022.3222544http://cds.cern.ch/record/2773259engHaag, DennisSchmidt, SebastianHufschmidt, PatrickAnton, GiselaBallabriga, RafaelBehrens, RolfCampbell, MichaelEberle, FranziskaFuhg, ChristianHupe, OliverLlopart, XavierRoth, JürgenTlustos, LukasWong, WinnieZutz, HayoMichel, ThiloPersonal Dosimetry in Direct Pulsed Photon Fields with the Dosepix Detectorphysics.ins-detDetectors and Experimental Techniquesphysics.med-phHealth Physics and Radiation EffectsFirst investigations regarding dosimetric properties of the hybrid, pixelated, photon-counting Dosepix detector in the direct beam of a pulsed photon field (RQR8) for the personal dose equivalent H p (10) are presented. The influence quantities such as pulse duration and dose rate were varied, and their responses were compared to the legal limits provided in PTB-A 23.2. The variation of pulse duration at a nearly constant dose rate of about 3.7 Sv/h shows a flat response around 1.0 from 3.6 s down to 2 ms. A response close to 1.0 is achieved for dose rates from 0.07 to 35 Sv/h for both pixel sizes. Above this dose rate, the large pixels ( 220 μm edge length) are below the lower limit. The small pixels ( 55 μm edge length) stay within limits up to 704 Sv/h. The count rate linearity is compared to previous results, confirming the saturating count rate for high dose rates.First investigations regarding dosimetric properties of the hybrid, pixelated, photon-counting Dosepix detector in the direct beam of a pulsed photon field (RQR8) for the personal dose equivalent $H\mathrm{_p(10)}$ are presented. The influence quantities such as pulse duration and dose rate were varied, and their responses were compared to the legal limits provided in PTB-A 23.2. The variation of pulse duration at a nearly constant dose rate of about 3.7$\,$Sv/h shows a flat response around 1.0 from 3.6$\,$s down to 2$\,$ms. A response close to 1.0 is achieved for dose rates from 0.07$\,$Sv/h to 35$\,$Sv/h for both pixel sizes. Above this dose rate, the large pixels (220$\,\mu$m edge length) are below the lower limit. The small pixels (55$\,\mu$m edge length) stay within limits up to 704$\,$Sv/h. The count rate linearity is compared to previous results, confirming the saturating count rate for high dose rates.arXiv:2106.06714oai:cds.cern.ch:27732592021-06-12 |
| spellingShingle | physics.ins-det Detectors and Experimental Techniques physics.med-ph Health Physics and Radiation Effects Haag, Dennis Schmidt, Sebastian Hufschmidt, Patrick Anton, Gisela Ballabriga, Rafael Behrens, Rolf Campbell, Michael Eberle, Franziska Fuhg, Christian Hupe, Oliver Llopart, Xavier Roth, Jürgen Tlustos, Lukas Wong, Winnie Zutz, Hayo Michel, Thilo Personal Dosimetry in Direct Pulsed Photon Fields with the Dosepix Detector |
| title | Personal Dosimetry in Direct Pulsed Photon Fields with the Dosepix Detector |
| title_full | Personal Dosimetry in Direct Pulsed Photon Fields with the Dosepix Detector |
| title_fullStr | Personal Dosimetry in Direct Pulsed Photon Fields with the Dosepix Detector |
| title_full_unstemmed | Personal Dosimetry in Direct Pulsed Photon Fields with the Dosepix Detector |
| title_short | Personal Dosimetry in Direct Pulsed Photon Fields with the Dosepix Detector |
| title_sort | personal dosimetry in direct pulsed photon fields with the dosepix detector |
| topic | physics.ins-det Detectors and Experimental Techniques physics.med-ph Health Physics and Radiation Effects |
| url | https://dx.doi.org/10.1109/TNS.2022.3222544 http://cds.cern.ch/record/2773259 |
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