Coupled theoretical and experimental studies for the radiation hardening of silica-based optical fibers

N. Richard; S. Girard; L. Giacomazzi; L. Martin-Samos; D. Di Francesca; C. Marcandella; A. Alessi; P. Paillet; S. Agnello; A. Boukenter; Y. Ouerdane; M. Cannas; R. Boscaino

doi:10.1109/RADECS.2013.6937444

Coupled theoretical and experimental studies for the radiation hardening of silica-based optical fibers

N. Richard
, S. Girard
, L. Giacomazzi
, L. Martin-Samos
, D. Di Francesca
, C. Marcandella
, A. Alessi
, P. Paillet
, S. Agnello
, A. Boukenter
, Y. Ouerdane
, M. Cannas
, R. Boscaino

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

Abstract

We applied theoretical and experimental spectroscopy tools to ad hoc silica-based 'canonical' samples to characterize the influence of several dopants and of some drawing process parameters on their radiation sensitivities. We present in this paper, the recent advances and results occurring from our coupled approach. On the experimental side, we studied the doping influence on the response of optical fibers and showed that changing the drawing parameters has a negligible influence on the fiber response in the case of specialty fibers. We focus mainly on the SiE' defect that is observed through Electronic Paramagnetic Resonance (EPR) measurements in all canonical samples. On the theoretical side, we exhibit the improvements obtained in the calculations of electronic and optical properties of defects by using Many Body Perturbation Theory through the use of the GW approximation and the resolution of the Bethe-Salpeter equation instead of the Density Functional Theory (Local Density Approximation). To continue to strengthen the link between experiment and simulation, we have performed first-principles calculations of EPR parameters of some silica-based defects. The first results allowing for an attribution of EPR E' signals to structural models are presented. In particular, we confirm that the E'_Y center is originated by an unpaired electron in a sp³ state at a three-fold coordinated silicon atom.

Original language	English
Title of host publication	Proceedings of the European Conference on Radiation and its Effects on Components and Systems, RADECS
Publisher	Institute of Electrical and Electronics Engineers Inc.
ISBN (Electronic)	9781467350570
DOIs	https://doi.org/10.1109/RADECS.2013.6937444
Publication status	Published - 28 Oct 2013
Externally published	Yes
Event	2013 14th European Conference on Radiation and Its Effects on Components and Systems, RADECS 2013 - Oxford, United Kingdom Duration: 23 Sept 2013 → 27 Sept 2013

Publication series

Name	Proceedings of the European Conference on Radiation and its Effects on Components and Systems, RADECS

Conference

Conference	2013 14th European Conference on Radiation and Its Effects on Components and Systems, RADECS 2013
Country/Territory	United Kingdom
City	Oxford
Period	23/09/13 → 27/09/13

Keywords

Ab initio calculations
defects
density functional theory
optical fibers
radiation effects
silica
theoretical spectroscopy

Access to Document

10.1109/RADECS.2013.6937444

Cite this

Richard, N., Girard, S., Giacomazzi, L., Martin-Samos, L., Di Francesca, D., Marcandella, C., Alessi, A., Paillet, P., Agnello, S., Boukenter, A., Ouerdane, Y., Cannas, M., & Boscaino, R. (2013). Coupled theoretical and experimental studies for the radiation hardening of silica-based optical fibers. In Proceedings of the European Conference on Radiation and its Effects on Components and Systems, RADECS Article 6937444 (Proceedings of the European Conference on Radiation and its Effects on Components and Systems, RADECS). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/RADECS.2013.6937444

Richard, N. ; Girard, S. ; Giacomazzi, L. et al. / Coupled theoretical and experimental studies for the radiation hardening of silica-based optical fibers. Proceedings of the European Conference on Radiation and its Effects on Components and Systems, RADECS. Institute of Electrical and Electronics Engineers Inc., 2013. (Proceedings of the European Conference on Radiation and its Effects on Components and Systems, RADECS).

@inproceedings{a549cdd68d7e4faaa80834161cf0d059,

title = "Coupled theoretical and experimental studies for the radiation hardening of silica-based optical fibers",

abstract = "We applied theoretical and experimental spectroscopy tools to ad hoc silica-based 'canonical' samples to characterize the influence of several dopants and of some drawing process parameters on their radiation sensitivities. We present in this paper, the recent advances and results occurring from our coupled approach. On the experimental side, we studied the doping influence on the response of optical fibers and showed that changing the drawing parameters has a negligible influence on the fiber response in the case of specialty fibers. We focus mainly on the SiE' defect that is observed through Electronic Paramagnetic Resonance (EPR) measurements in all canonical samples. On the theoretical side, we exhibit the improvements obtained in the calculations of electronic and optical properties of defects by using Many Body Perturbation Theory through the use of the GW approximation and the resolution of the Bethe-Salpeter equation instead of the Density Functional Theory (Local Density Approximation). To continue to strengthen the link between experiment and simulation, we have performed first-principles calculations of EPR parameters of some silica-based defects. The first results allowing for an attribution of EPR E' signals to structural models are presented. In particular, we confirm that the E'Y center is originated by an unpaired electron in a sp3 state at a three-fold coordinated silicon atom.",

keywords = "Ab initio calculations, defects, density functional theory, optical fibers, radiation effects, silica, theoretical spectroscopy",

author = "N. Richard and S. Girard and L. Giacomazzi and L. Martin-Samos and \{Di Francesca\}, D. and C. Marcandella and A. Alessi and P. Paillet and S. Agnello and A. Boukenter and Y. Ouerdane and M. Cannas and R. Boscaino",

note = "Publisher Copyright: {\textcopyright} 2013 IEEE.; 2013 14th European Conference on Radiation and Its Effects on Components and Systems, RADECS 2013 ; Conference date: 23-09-2013 Through 27-09-2013",

year = "2013",

month = oct,

day = "28",

doi = "10.1109/RADECS.2013.6937444",

language = "English",

series = "Proceedings of the European Conference on Radiation and its Effects on Components and Systems, RADECS",

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Richard, N, Girard, S, Giacomazzi, L, Martin-Samos, L, Di Francesca, D, Marcandella, C, Alessi, A, Paillet, P, Agnello, S, Boukenter, A, Ouerdane, Y, Cannas, M & Boscaino, R 2013, Coupled theoretical and experimental studies for the radiation hardening of silica-based optical fibers. in Proceedings of the European Conference on Radiation and its Effects on Components and Systems, RADECS., 6937444, Proceedings of the European Conference on Radiation and its Effects on Components and Systems, RADECS, Institute of Electrical and Electronics Engineers Inc., 2013 14th European Conference on Radiation and Its Effects on Components and Systems, RADECS 2013, Oxford, United Kingdom, 23/09/13. https://doi.org/10.1109/RADECS.2013.6937444

Coupled theoretical and experimental studies for the radiation hardening of silica-based optical fibers. / Richard, N.; Girard, S.; Giacomazzi, L. et al.
Proceedings of the European Conference on Radiation and its Effects on Components and Systems, RADECS. Institute of Electrical and Electronics Engineers Inc., 2013. 6937444 (Proceedings of the European Conference on Radiation and its Effects on Components and Systems, RADECS).

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

TY - GEN

T1 - Coupled theoretical and experimental studies for the radiation hardening of silica-based optical fibers

AU - Richard, N.

AU - Girard, S.

AU - Giacomazzi, L.

AU - Martin-Samos, L.

AU - Di Francesca, D.

AU - Marcandella, C.

AU - Alessi, A.

AU - Paillet, P.

AU - Agnello, S.

AU - Boukenter, A.

AU - Ouerdane, Y.

AU - Cannas, M.

AU - Boscaino, R.

PY - 2013/10/28

Y1 - 2013/10/28

N2 - We applied theoretical and experimental spectroscopy tools to ad hoc silica-based 'canonical' samples to characterize the influence of several dopants and of some drawing process parameters on their radiation sensitivities. We present in this paper, the recent advances and results occurring from our coupled approach. On the experimental side, we studied the doping influence on the response of optical fibers and showed that changing the drawing parameters has a negligible influence on the fiber response in the case of specialty fibers. We focus mainly on the SiE' defect that is observed through Electronic Paramagnetic Resonance (EPR) measurements in all canonical samples. On the theoretical side, we exhibit the improvements obtained in the calculations of electronic and optical properties of defects by using Many Body Perturbation Theory through the use of the GW approximation and the resolution of the Bethe-Salpeter equation instead of the Density Functional Theory (Local Density Approximation). To continue to strengthen the link between experiment and simulation, we have performed first-principles calculations of EPR parameters of some silica-based defects. The first results allowing for an attribution of EPR E' signals to structural models are presented. In particular, we confirm that the E'Y center is originated by an unpaired electron in a sp3 state at a three-fold coordinated silicon atom.

AB - We applied theoretical and experimental spectroscopy tools to ad hoc silica-based 'canonical' samples to characterize the influence of several dopants and of some drawing process parameters on their radiation sensitivities. We present in this paper, the recent advances and results occurring from our coupled approach. On the experimental side, we studied the doping influence on the response of optical fibers and showed that changing the drawing parameters has a negligible influence on the fiber response in the case of specialty fibers. We focus mainly on the SiE' defect that is observed through Electronic Paramagnetic Resonance (EPR) measurements in all canonical samples. On the theoretical side, we exhibit the improvements obtained in the calculations of electronic and optical properties of defects by using Many Body Perturbation Theory through the use of the GW approximation and the resolution of the Bethe-Salpeter equation instead of the Density Functional Theory (Local Density Approximation). To continue to strengthen the link between experiment and simulation, we have performed first-principles calculations of EPR parameters of some silica-based defects. The first results allowing for an attribution of EPR E' signals to structural models are presented. In particular, we confirm that the E'Y center is originated by an unpaired electron in a sp3 state at a three-fold coordinated silicon atom.

KW - Ab initio calculations

KW - defects

KW - density functional theory

KW - optical fibers

KW - radiation effects

KW - silica

KW - theoretical spectroscopy

U2 - 10.1109/RADECS.2013.6937444

DO - 10.1109/RADECS.2013.6937444

M3 - Conference contribution

AN - SCOPUS:84949925200

T3 - Proceedings of the European Conference on Radiation and its Effects on Components and Systems, RADECS

BT - Proceedings of the European Conference on Radiation and its Effects on Components and Systems, RADECS

PB - Institute of Electrical and Electronics Engineers Inc.

T2 - 2013 14th European Conference on Radiation and Its Effects on Components and Systems, RADECS 2013

Y2 - 23 September 2013 through 27 September 2013

ER -

Richard N, Girard S, Giacomazzi L, Martin-Samos L, Di Francesca D, Marcandella C et al. Coupled theoretical and experimental studies for the radiation hardening of silica-based optical fibers. In Proceedings of the European Conference on Radiation and its Effects on Components and Systems, RADECS. Institute of Electrical and Electronics Engineers Inc. 2013. 6937444. (Proceedings of the European Conference on Radiation and its Effects on Components and Systems, RADECS). doi: 10.1109/RADECS.2013.6937444

Coupled theoretical and experimental studies for the radiation hardening of silica-based optical fibers

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Keywords

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