Fiber-optic bragg gratings for temperature and pressure measurements in isotope production targets for nuclear medicine

A Bragg grating inscribed into an inorganic optical fiber was tested in proton and neutron fields up to doses of 472 Gy. Observation showed that radiation had no eect on the performance of the Fiber Bragg Grating (FBG) used as a gauge measuring temperature and pressure. The FBG sensor was subsequent...

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Published in	Applied sciences Vol. 10; no. 13; p. 4610
Main Authors	Bakaic, Michael, Hanna, Matthew, Hnatovsky, Cyril, Grobnic, Dan, Mihailov, Stephen, Zeisler, S. Stefan, Hoehr, Cornelia
Format	Journal Article
Language	English
Published	Basel MDPI 01.07.2020 MDPI AG
Subjects	Diffraction gratings Equipment and supplies Experiments Fiber optics Fiber-Bragg Gratings Inscriptions isotope production target Isotopes Lasers Measurement Methods Nuclear medicine Pressure Production processes radiation hard Sensors Temperature measurements temperature sensor Canada
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Abstract	A Bragg grating inscribed into an inorganic optical fiber was tested in proton and neutron fields up to doses of 472 Gy. Observation showed that radiation had no eect on the performance of the Fiber Bragg Grating (FBG) used as a gauge measuring temperature and pressure. The FBG sensor was subsequently employed to measure the temperature and pressure inside a liquid isotope production target for nuclear medicine. The fiber Bragg grating measured the temperature and pressure of a water target as a 12 MeV proton beam impinged on it in real time and was tested with beam currents of up to 20 µA. NRC publication: Yes
AbstractList	A Bragg grating inscribed into an inorganic optical fiber was tested in proton and neutron fields up to doses of 472 Gy. Observation showed that radiation had no effect on the performance of the Fiber Bragg Grating (FBG) used as a gauge measuring temperature and pressure. The FBG sensor was subsequently employed to measure the temperature and pressure inside a liquid isotope production target for nuclear medicine. The fiber Bragg grating measured the temperature and pressure of a water target as a 12 MeV proton beam impinged on it in real time and was tested with beam currents of up to 20 [micro]A. Keywords: Fiber-Bragg Gratings; temperature sensor; radiation hard; isotope production target A Bragg grating inscribed into an inorganic optical fiber was tested in proton and neutron fields up to doses of 472 Gy. Observation showed that radiation had no effect on the performance of the Fiber Bragg Grating (FBG) used as a gauge measuring temperature and pressure. The FBG sensor was subsequently employed to measure the temperature and pressure inside a liquid isotope production target for nuclear medicine. The fiber Bragg grating measured the temperature and pressure of a water target as a 12 MeV proton beam impinged on it in real time and was tested with beam currents of up to 20 [micro]A. A Bragg grating inscribed into an inorganic optical fiber was tested in proton and neutron fields up to doses of 472 Gy. Observation showed that radiation had no effect on the performance of the Fiber Bragg Grating (FBG) used as a gauge measuring temperature and pressure. The FBG sensor was subsequently employed to measure the temperature and pressure inside a liquid isotope production target for nuclear medicine. The fiber Bragg grating measured the temperature and pressure of a water target as a 12 MeV proton beam impinged on it in real time and was tested with beam currents of up to 20 µA. A Bragg grating inscribed into an inorganic optical fiber was tested in proton and neutron fields up to doses of 472 Gy. Observation showed that radiation had no eect on the performance of the Fiber Bragg Grating (FBG) used as a gauge measuring temperature and pressure. The FBG sensor was subsequently employed to measure the temperature and pressure inside a liquid isotope production target for nuclear medicine. The fiber Bragg grating measured the temperature and pressure of a water target as a 12 MeV proton beam impinged on it in real time and was tested with beam currents of up to 20 µA.
Audience	Academic
Author	Hanna, Matthew Grobnic, Dan Zeisler, S. Stefan Hoehr, Cornelia Mihailov, Stephen Hnatovsky, Cyril Bakaic, Michael
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SubjectTerms	Diffraction gratings Equipment and supplies Experiments Fiber optics Fiber-Bragg Gratings Inscriptions isotope production target Isotopes Lasers Measurement Methods Nuclear medicine Pressure Production processes radiation hard Sensors Temperature measurements temperature sensor
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Title	Fiber-optic bragg gratings for temperature and pressure measurements in isotope production targets for nuclear medicine
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