Hostname: page-component-78c5997874-4rdpn Total loading time: 0 Render date: 2024-11-14T05:17:24.196Z Has data issue: false hasContentIssue false
  • English
  • Français

The Role of Glass Composition in the Performance of Er3+-, Nd3+-, and Pr3+-Doped Fiber Amplifiers

Published online by Cambridge University Press:  15 February 2011

W. J. Miniscalco ,
B. Pedersen ,
S. Zemon ,
B. A. Thompson ,
G. Lambert ,
B. T. Hall ,
R. C. Folweiler ,
T. Wei ,
M. L. Dakss  and
L. J. Andrews
W. J. Miniscalco
Affiliation:
GTE Laboratories Incorporated, 40 Sylvan Road, Waltham, MA 02254
B. Pedersen
Affiliation:
Technical University of Denmark, Electromagnetics Institute, DK-2800 Lyngby, Denmark
S. Zemon
Affiliation:
GTE Laboratories Incorporated, 40 Sylvan Road, Waltham, MA 02254
B. A. Thompson
Affiliation:
GTE Laboratories Incorporated, 40 Sylvan Road, Waltham, MA 02254
G. Lambert
Affiliation:
GTE Laboratories Incorporated, 40 Sylvan Road, Waltham, MA 02254
B. T. Hall
Affiliation:
GTE Laboratories Incorporated, 40 Sylvan Road, Waltham, MA 02254
R. C. Folweiler
Affiliation:
GTE Laboratories Incorporated, 40 Sylvan Road, Waltham, MA 02254
T. Wei
Affiliation:
GTE Laboratories Incorporated, 40 Sylvan Road, Waltham, MA 02254
M. L. Dakss
Affiliation:
GTE Laboratories Incorporated, 40 Sylvan Road, Waltham, MA 02254
L. J. Andrews
Affiliation:
GTE Laboratories Incorporated, 40 Sylvan Road, Waltham, MA 02254
Get access

Abstract

The role of glass composition is examined theoretically and experimentally for fiber amplifiers. Simple analysis procedures can be used to set limits on performance and identify more favorable glass types for detailed investigation.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 244: Symposium J – Optical Waveguide Materials , 1991 , 221
Copyright
Copyright © Materials Research Society 1992

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

REFERENCES

1. Miniscalco, W.J., J. Lightwave Technol. 9, 234 (1991).10.1109/50.65882Google Scholar
2. Pedersen, B., Zemon, S., and Miniscalco, W.J., Electron. Lett. 27, 1295 (1991).10.1049/el:19910810Google Scholar
3. Miniscalco, W.J., Thompson, B.A., Dakss, M.L., Zemon, S.A., and Andrews, L.J., in Fiber Laser Sources and Amplifiers, III, edited by Digonnet, M.J.F., (SPIE 1581, Bellingham, WA, 1992), in press.Google Scholar
4. Miniscalco, W.J. and Quimby, R.S., Optics Lett. 16, 258 (1991).10.1364/OL.16.000258Google Scholar
5. McCumber, D.E., Phys. Rev. 134, A299 (1964).10.1103/PhysRev.134.A299Google Scholar
6. Giles, C.R., Desurvire, E., Zyskind, J.L., and Simpson, J.R., IEEE Photon. Technol. Lett. 1, 367 (1989).10.1109/68.43381Google Scholar
7. Yamada, M., Shimizu, M., Okayasu, M., Takeshita, T., Horiguchi, M., Tachikawa, Y., and Sugita, E., IEEE Photon. Technol. Lett. 2, 205 (1990).10.1109/68.59341Google Scholar
8. Alcock, I.P., Ferguson, A.I., Hanna, D.C., and Tropper, A.C., Optics Lett. 11, 709 (1986).10.1364/OL.11.000709Google Scholar
9. Morkel, P.R., Farries, M.C., and Poole, S.B., Optics Commun. 67, 349 (1988).10.1016/0030-4018(88)90025-9CrossRefGoogle Scholar
10. Andrews, L.J., Miniscalco, W.J., and Wei, T., in Proc. of the First Intl. School on Excited States of Transition Elements, (World Scientific, Singapore, 1989) p. 9.Google Scholar
11. Miniscalco, W.J., Andrews, L.J., Thompson, B.A., Quimby, R.S., Vacha, L.J.B., and Drexhage, M.G., Electron. Lett. 24, 28 (1988).10.1049/el:19880019Google Scholar
12. Brierley, M.C., Carter, S., France, P.W., and Pedersen, J.E., Electron. Lett. 26, 329 (1990).10.1049/el:19900216CrossRefGoogle Scholar
13. Dakss, M.L. and Miniscalco, W.J., IEEE Photon. Technol. Lett. 2, 650 (1990).10.1109/68.59339Google Scholar
14. Dakss, M.L. and Miniscalco, W.J., in Fiber Laser Sources and Amplifiers II, edited by Digonnet, M.J.F., (SPIE 1373, Bellingham, WA, 1991) pp. 111124.10.1117/12.24934Google Scholar
15. Zemon, S., Pedersen, B., Lambert, G., Miniscalco, W.J., Hall, B.T., Folweiler, R.C., Thompson, B.A., and Andrews, L.J., IEEE Photon. Technol. Lett., in press.Google Scholar
16. Judd, B.R., Phys. Rev. 127, 750 (1962).10.1103/PhysRev.127.750Google Scholar
17. Ofelt, G.S., J. Chem. Phys. 37, 511 (1962).10.1063/1.1701366Google Scholar
18. Stokowski, S.E., Saroyan, R.A., and. Weber, M.J., Lawrence Livermore National Laboratory Report M-095, Rev. 2, Nov. 1981.Google Scholar
19. Miyajima, Y., Sugawa, T., and Komukai, T., in Technical Digest on Optical Amplifiers and Their Applications, 1991 (Optical Society of America, Washington, DC, 1991), Vol.13, pp. 1619.Google Scholar
20. Ohishi, Y., Kanamori, T., Kitagawa, T., Takahashi, S., Snitzer, E., and Sigel, G.H. Jr, Proc. OFC'91, Postdeadline Paper PD2, p. 10.Google Scholar
21. Ohishi, Y., Kanamori, T., Nishi, T., and Takahashi, S., IEEE Photon. Technol. Lett. 3, 715 (1991).10.1109/68.84462Google Scholar
22. Miyajima, Y., Sugawa, T., and Fukasaku, Y., Electron. Lett. 27, 1706 (1991).10.1049/el:19911062Google Scholar
23. Pedersen, B., Miniscalco, W.J., and Quimby, R.S., to be published.Google Scholar