Abstract

Regenerated gratings seeded by type I gratings in boron-codoped germanosilicate optical fiber written with 193nm are shown to withstand temperatures beyond 1000°C.

© 2008 Optical Society of America

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References

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2007

2006

O. V. Butov, E. M. Dianov, and K. M. Golant, Meas. Sci. Technol. 17, 975 (2006).
[CrossRef]

D. Grobnic, C. W. Smelser, S. J. Mihailov, and R. B. Walker, Meas. Sci. Technol. 17, 1009 (2006).
[CrossRef]

2005

2004

2002

2000

1995

M. Janos and J. Canning, Electron. Lett. 31, 1007 (1995).
[CrossRef]

1993

W. X. Xie, P. Niay, P. Bernage, M. Douay, J. F. Bayon, T. Georges, M. Monerie, and B. Poumellec, Opt. Commun. 104, 185 (1993).
[CrossRef]

J. L. Archambault, L. Reekie, and P. St. Russell, Electron. Lett. 29, 453 (1993).
[CrossRef]

Archambault, J. L.

J. L. Archambault, L. Reekie, and P. St. Russell, Electron. Lett. 29, 453 (1993).
[CrossRef]

Aslund, M.

Baxter, G. W.

Bayon, J. F.

W. X. Xie, P. Niay, P. Bernage, M. Douay, J. F. Bayon, T. Georges, M. Monerie, and B. Poumellec, Opt. Commun. 104, 185 (1993).
[CrossRef]

Bernage, P.

W. X. Xie, P. Niay, P. Bernage, M. Douay, J. F. Bayon, T. Georges, M. Monerie, and B. Poumellec, Opt. Commun. 104, 185 (1993).
[CrossRef]

Butov, O. V.

O. V. Butov, E. M. Dianov, and K. M. Golant, Meas. Sci. Technol. 17, 975 (2006).
[CrossRef]

Canning, J.

Chen, S.

Collins, S. F.

Dianov, E. M.

O. V. Butov, E. M. Dianov, and K. M. Golant, Meas. Sci. Technol. 17, 975 (2006).
[CrossRef]

Douay, M.

W. X. Xie, P. Niay, P. Bernage, M. Douay, J. F. Bayon, T. Georges, M. Monerie, and B. Poumellec, Opt. Commun. 104, 185 (1993).
[CrossRef]

Fokine, M.

Georges, T.

W. X. Xie, P. Niay, P. Bernage, M. Douay, J. F. Bayon, T. Georges, M. Monerie, and B. Poumellec, Opt. Commun. 104, 185 (1993).
[CrossRef]

Golant, K. M.

O. V. Butov, E. M. Dianov, and K. M. Golant, Meas. Sci. Technol. 17, 975 (2006).
[CrossRef]

Grattan, K. T.

Grobnic, D.

D. Grobnic, C. W. Smelser, S. J. Mihailov, and R. B. Walker, Meas. Sci. Technol. 17, 1009 (2006).
[CrossRef]

Groothoff, N.

He, J.

Janos, M.

M. Janos and J. Canning, Electron. Lett. 31, 1007 (1995).
[CrossRef]

Kahriziet, M.

B. Zhang and M. Kahriziet, IEEE Sens. J. 7, 586 (2007).
[CrossRef]

Kitcher, D. J.

Mihailov, S. J.

D. Grobnic, C. W. Smelser, S. J. Mihailov, and R. B. Walker, Meas. Sci. Technol. 17, 1009 (2006).
[CrossRef]

Monerie, M.

W. X. Xie, P. Niay, P. Bernage, M. Douay, J. F. Bayon, T. Georges, M. Monerie, and B. Poumellec, Opt. Commun. 104, 185 (1993).
[CrossRef]

Niay, P.

W. X. Xie, P. Niay, P. Bernage, M. Douay, J. F. Bayon, T. Georges, M. Monerie, and B. Poumellec, Opt. Commun. 104, 185 (1993).
[CrossRef]

Poumellec, B.

W. X. Xie, P. Niay, P. Bernage, M. Douay, J. F. Bayon, T. Georges, M. Monerie, and B. Poumellec, Opt. Commun. 104, 185 (1993).
[CrossRef]

Qiu, Y.

Reekie, L.

J. L. Archambault, L. Reekie, and P. St. Russell, Electron. Lett. 29, 453 (1993).
[CrossRef]

Russell, P. St.

J. L. Archambault, L. Reekie, and P. St. Russell, Electron. Lett. 29, 453 (1993).
[CrossRef]

Shen, Y.

Smelser, C. W.

D. Grobnic, C. W. Smelser, S. J. Mihailov, and R. B. Walker, Meas. Sci. Technol. 17, 1009 (2006).
[CrossRef]

Sun, T.

Trpkovski, S.

Wade, S. A.

Walker, R. B.

D. Grobnic, C. W. Smelser, S. J. Mihailov, and R. B. Walker, Meas. Sci. Technol. 17, 1009 (2006).
[CrossRef]

Xie, W. X.

W. X. Xie, P. Niay, P. Bernage, M. Douay, J. F. Bayon, T. Georges, M. Monerie, and B. Poumellec, Opt. Commun. 104, 185 (1993).
[CrossRef]

Zhang, B.

B. Zhang and M. Kahriziet, IEEE Sens. J. 7, 586 (2007).
[CrossRef]

Zhao, W.

Electron. Lett.

J. L. Archambault, L. Reekie, and P. St. Russell, Electron. Lett. 29, 453 (1993).
[CrossRef]

M. Janos and J. Canning, Electron. Lett. 31, 1007 (1995).
[CrossRef]

IEEE Sens. J.

B. Zhang and M. Kahriziet, IEEE Sens. J. 7, 586 (2007).
[CrossRef]

J. Opt. Soc. Am. B

Meas. Sci. Technol.

D. Grobnic, C. W. Smelser, S. J. Mihailov, and R. B. Walker, Meas. Sci. Technol. 17, 1009 (2006).
[CrossRef]

O. V. Butov, E. M. Dianov, and K. M. Golant, Meas. Sci. Technol. 17, 975 (2006).
[CrossRef]

Opt. Commun.

W. X. Xie, P. Niay, P. Bernage, M. Douay, J. F. Bayon, T. Georges, M. Monerie, and B. Poumellec, Opt. Commun. 104, 185 (1993).
[CrossRef]

Opt. Lett.

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Figures (5)

Fig. 1
Fig. 1

Evolution of the regenerated grating at 900 ° C .

Fig. 2
Fig. 2

Strength and λ B evolution of the regenerated gratings during the process of annealing. (a) sample 1, (b) sample 2.

Fig. 3
Fig. 3

Wavelength stability of the regenerated gratings at different elevated temperatures. Levels 1–5 marked in the figure define temperature levels from 600 ° C to 1000 ° C in steps of 100 ° C .

Fig. 4
Fig. 4

Wavelength shifts with respect to change of temperatures as produced by regenerated gratings. Inset: measured reflection and transmission spectrum of one regenerated grating.

Fig. 5
Fig. 5

Twice cycling of the regenerated grating after fabrication and initial relaxation to room temperature. Top shows the normalized grating strength while the bottom shows the Bragg wavelength shift.

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