Simultaneous measurement of temperature and ionizing radiation dose based on type-II FBGs inscribed in P-doped optical fibers

M. Leoschke; S. Zilberman; W. Lo; M. Catellani; D. Beck; J. Geuther; F. Scurti

doi:10.1117/12.3062943

Simultaneous measurement of temperature and ionizing radiation dose based on type-II FBGs inscribed in P-doped optical fibers

M. Leoschke
, S. Zilberman
, W. Lo
, M. Catellani
, D. Beck
, J. Geuther
, F. Scurti

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

1 Scopus citations

Abstract

A novel approach for the simultaneous measurement of radiation dose and temperature using Type-II fiber Bragg gratings (FBGs) inscribed on phosphorus (P)-doped optical fibers is proposed. For the first time, a Type-II FBG inscribed on a P-doped optical fiber was irradiated within the core of a nuclear reactor, exposing the sensor to both gamma radiation and neutron flux. This work provides new insights into the effects of reactor irradiation on Type-II FBGs in P-doped fibers, demonstrating that the radiation-induced Bragg wavelength shift is only slightly higher compared to FBGs inscribed in pure silica core fibers. Furthermore, the reactor irradiation serves to illustrate the proposed method for simultaneous temperature and radiation dose sensing using a single FBG. The proposed technique can be easily multiplexed along a single optical fiber to provide multiple sensing points, each capable of discriminating temperature and radiation dose. While the method is constrained by the maximum radiation dose at which the P-doped fiber experiences total darkening, it remains applicable for a wide range of environments, including ex-core measurements in nuclear reactors and various locations within particle accelerators.

Original language	English (US)
Title of host publication	29th International Conference on Optical Fiber Sensors
Editors	Jose Luis Santos, Manuel Lopez-Amo Sainz, Tong Sun
Publisher	SPIE
ISBN (Electronic)	9781510691872
DOIs	https://doi.org/10.1117/12.3062943
State	Published - 2025
Event	29th International Conference on Optical Fiber Sensors - Porto, Portugal Duration: May 25 2025 → May 30 2025

Publication series

Name	Proceedings of SPIE - The International Society for Optical Engineering
Volume	13639
ISSN (Print)	0277-786X
ISSN (Electronic)	1996-756X

Conference

Conference	29th International Conference on Optical Fiber Sensors
Country/Territory	Portugal
City	Porto
Period	5/25/25 → 5/30/25

All Science Journal Classification (ASJC) codes

Electronic, Optical and Magnetic Materials
Instrumentation
Condensed Matter Physics
Computer Science Applications
Applied Mathematics
Electrical and Electronic Engineering

Access to Document

10.1117/12.3062943

Cite this

Leoschke, M., Zilberman, S., Lo, W., Catellani, M., Beck, D., Geuther, J., & Scurti, F. (2025). Simultaneous measurement of temperature and ionizing radiation dose based on type-II FBGs inscribed in P-doped optical fibers. In J. L. Santos, M. L.-A. Sainz, & T. Sun (Eds.), 29th International Conference on Optical Fiber Sensors Article 13639AR (Proceedings of SPIE - The International Society for Optical Engineering; Vol. 13639). SPIE. https://doi.org/10.1117/12.3062943

Leoschke, M. ; Zilberman, S. ; Lo, W. et al. / Simultaneous measurement of temperature and ionizing radiation dose based on type-II FBGs inscribed in P-doped optical fibers. 29th International Conference on Optical Fiber Sensors. editor / Jose Luis Santos ; Manuel Lopez-Amo Sainz ; Tong Sun. SPIE, 2025. (Proceedings of SPIE - The International Society for Optical Engineering).

@inproceedings{c3df26fc997948959a415319c6530590,

title = "Simultaneous measurement of temperature and ionizing radiation dose based on type-II FBGs inscribed in P-doped optical fibers",

abstract = "A novel approach for the simultaneous measurement of radiation dose and temperature using Type-II fiber Bragg gratings (FBGs) inscribed on phosphorus (P)-doped optical fibers is proposed. For the first time, a Type-II FBG inscribed on a P-doped optical fiber was irradiated within the core of a nuclear reactor, exposing the sensor to both gamma radiation and neutron flux. This work provides new insights into the effects of reactor irradiation on Type-II FBGs in P-doped fibers, demonstrating that the radiation-induced Bragg wavelength shift is only slightly higher compared to FBGs inscribed in pure silica core fibers. Furthermore, the reactor irradiation serves to illustrate the proposed method for simultaneous temperature and radiation dose sensing using a single FBG. The proposed technique can be easily multiplexed along a single optical fiber to provide multiple sensing points, each capable of discriminating temperature and radiation dose. While the method is constrained by the maximum radiation dose at which the P-doped fiber experiences total darkening, it remains applicable for a wide range of environments, including ex-core measurements in nuclear reactors and various locations within particle accelerators.",

author = "M. Leoschke and S. Zilberman and W. Lo and M. Catellani and D. Beck and J. Geuther and F. Scurti",

note = "Publisher Copyright: {\textcopyright} COPYRIGHT SPIE. Downloading of the abstract is permitted for personal use only.; 29th International Conference on Optical Fiber Sensors ; Conference date: 25-05-2025 Through 30-05-2025",

year = "2025",

doi = "10.1117/12.3062943",

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series = "Proceedings of SPIE - The International Society for Optical Engineering",

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Leoschke, M, Zilberman, S, Lo, W, Catellani, M, Beck, D, Geuther, J & Scurti, F 2025, Simultaneous measurement of temperature and ionizing radiation dose based on type-II FBGs inscribed in P-doped optical fibers. in JL Santos, ML-A Sainz & T Sun (eds), 29th International Conference on Optical Fiber Sensors., 13639AR, Proceedings of SPIE - The International Society for Optical Engineering, vol. 13639, SPIE, 29th International Conference on Optical Fiber Sensors, Porto, Portugal, 5/25/25. https://doi.org/10.1117/12.3062943

Simultaneous measurement of temperature and ionizing radiation dose based on type-II FBGs inscribed in P-doped optical fibers. / Leoschke, M.; Zilberman, S.; Lo, W. et al.
29th International Conference on Optical Fiber Sensors. ed. / Jose Luis Santos; Manuel Lopez-Amo Sainz; Tong Sun. SPIE, 2025. 13639AR (Proceedings of SPIE - The International Society for Optical Engineering; Vol. 13639).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

TY - GEN

T1 - Simultaneous measurement of temperature and ionizing radiation dose based on type-II FBGs inscribed in P-doped optical fibers

AU - Leoschke, M.

AU - Zilberman, S.

AU - Lo, W.

AU - Catellani, M.

AU - Beck, D.

AU - Geuther, J.

AU - Scurti, F.

PY - 2025

Y1 - 2025

N2 - A novel approach for the simultaneous measurement of radiation dose and temperature using Type-II fiber Bragg gratings (FBGs) inscribed on phosphorus (P)-doped optical fibers is proposed. For the first time, a Type-II FBG inscribed on a P-doped optical fiber was irradiated within the core of a nuclear reactor, exposing the sensor to both gamma radiation and neutron flux. This work provides new insights into the effects of reactor irradiation on Type-II FBGs in P-doped fibers, demonstrating that the radiation-induced Bragg wavelength shift is only slightly higher compared to FBGs inscribed in pure silica core fibers. Furthermore, the reactor irradiation serves to illustrate the proposed method for simultaneous temperature and radiation dose sensing using a single FBG. The proposed technique can be easily multiplexed along a single optical fiber to provide multiple sensing points, each capable of discriminating temperature and radiation dose. While the method is constrained by the maximum radiation dose at which the P-doped fiber experiences total darkening, it remains applicable for a wide range of environments, including ex-core measurements in nuclear reactors and various locations within particle accelerators.

AB - A novel approach for the simultaneous measurement of radiation dose and temperature using Type-II fiber Bragg gratings (FBGs) inscribed on phosphorus (P)-doped optical fibers is proposed. For the first time, a Type-II FBG inscribed on a P-doped optical fiber was irradiated within the core of a nuclear reactor, exposing the sensor to both gamma radiation and neutron flux. This work provides new insights into the effects of reactor irradiation on Type-II FBGs in P-doped fibers, demonstrating that the radiation-induced Bragg wavelength shift is only slightly higher compared to FBGs inscribed in pure silica core fibers. Furthermore, the reactor irradiation serves to illustrate the proposed method for simultaneous temperature and radiation dose sensing using a single FBG. The proposed technique can be easily multiplexed along a single optical fiber to provide multiple sensing points, each capable of discriminating temperature and radiation dose. While the method is constrained by the maximum radiation dose at which the P-doped fiber experiences total darkening, it remains applicable for a wide range of environments, including ex-core measurements in nuclear reactors and various locations within particle accelerators.

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DO - 10.1117/12.3062943

M3 - Conference contribution

AN - SCOPUS:105019536261

T3 - Proceedings of SPIE - The International Society for Optical Engineering

BT - 29th International Conference on Optical Fiber Sensors

A2 - Santos, Jose Luis

A2 - Sainz, Manuel Lopez-Amo

A2 - Sun, Tong

PB - SPIE

T2 - 29th International Conference on Optical Fiber Sensors

Y2 - 25 May 2025 through 30 May 2025

ER -

Leoschke M, Zilberman S, Lo W, Catellani M, Beck D, Geuther J et al. Simultaneous measurement of temperature and ionizing radiation dose based on type-II FBGs inscribed in P-doped optical fibers. In Santos JL, Sainz MLA, Sun T, editors, 29th International Conference on Optical Fiber Sensors. SPIE. 2025. 13639AR. (Proceedings of SPIE - The International Society for Optical Engineering). doi: 10.1117/12.3062943

Simultaneous measurement of temperature and ionizing radiation dose based on type-II FBGs inscribed in P-doped optical fibers

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