Abstract

Blue light at 405 nm is generated by frequency doubling of a Ti:sapphire tunable laser in He+-implanted channel waveguides in gadolinium calcium oxoborate crystal. A conversion efficiency of 2% W-1 cm-2 is achieved between TM00 fundamental and TE01 harmonic modes.

© 2003 Optical Society of America

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References

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  2. G. Aka, A. Kahn-Harari, F. Mougel, D. Vivien, F. Salin, P. Colin, D. Pelenc, and J. L. Damelet, J. Opt. Soc. Am. B 14, 2238 (1997).
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    [CrossRef]
  9. Rainbow Photonics AG, Technoparkstrasse 1, CH-8005 Zurich, Switzerland; www.rainbowphotonics.ethz.ch .
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    [CrossRef]

1999

1998

1997

1991

W. P. Risk, Appl. Phys. Lett. 58, 19 (1991).
[CrossRef]

L. Babsail, G. Lifante, and P. D. Townsend, Appl. Phys. Lett. 59, 384 (1991).
[CrossRef]

1983

D. F. Clark, A. C. G. Nutt, K. K. Wong, P. J. R. Laybourn, and R. M. De La Rue, J. Appl. Phys. 54, 6218 (1983).
[CrossRef]

Aka, G.

Babsail, L.

L. Babsail, G. Lifante, and P. D. Townsend, Appl. Phys. Lett. 59, 384 (1991).
[CrossRef]

Boudrioua, A.

Chai, B. H. T.

B. H. T. Chai, Opt. Photon. News 10(1), 31 (1999).
[CrossRef]

Chandler, P. J.

P. D. Townsend, P. J. Chandler, and L. Zhang, Optical Effects of Ion Implantation (Cambridge U. Press, Cambridge, 1994).
[CrossRef]

Clark, D. F.

D. F. Clark, A. C. G. Nutt, K. K. Wong, P. J. R. Laybourn, and R. M. De La Rue, J. Appl. Phys. 54, 6218 (1983).
[CrossRef]

Colin, P.

Damelet, J. L.

Dardenne, K.

De La Rue, R. M.

D. F. Clark, A. C. G. Nutt, K. K. Wong, P. J. R. Laybourn, and R. M. De La Rue, J. Appl. Phys. 54, 6218 (1983).
[CrossRef]

Jacquier, B.

A. Boudrioua, J. C. Loulergue, P. Moretti, B. Jacquier, G. Aka, and D. Vivien, Opt. Lett. 24, 1299 (1999).
[CrossRef]

P. Moretti, M. F. Joubert, S. Tascu, B. Jacquier, M. Kaczkan, M. Malinovskii, and J. Sameski, presented at the Europhysical Conference on Defects in Insulating Materials, Wroclaw, Poland, July 1–5, 2002.

Joubert, M. F.

P. Moretti, M. F. Joubert, S. Tascu, B. Jacquier, M. Kaczkan, M. Malinovskii, and J. Sameski, presented at the Europhysical Conference on Defects in Insulating Materials, Wroclaw, Poland, July 1–5, 2002.

Kaczkan, M.

P. Moretti, M. F. Joubert, S. Tascu, B. Jacquier, M. Kaczkan, M. Malinovskii, and J. Sameski, presented at the Europhysical Conference on Defects in Insulating Materials, Wroclaw, Poland, July 1–5, 2002.

Kahn-Harari, A.

Laybourn, P. J. R.

D. F. Clark, A. C. G. Nutt, K. K. Wong, P. J. R. Laybourn, and R. M. De La Rue, J. Appl. Phys. 54, 6218 (1983).
[CrossRef]

Lifante, G.

L. Babsail, G. Lifante, and P. D. Townsend, Appl. Phys. Lett. 59, 384 (1991).
[CrossRef]

Loulergue, J. C.

Malinovskii, M.

P. Moretti, M. F. Joubert, S. Tascu, B. Jacquier, M. Kaczkan, M. Malinovskii, and J. Sameski, presented at the Europhysical Conference on Defects in Insulating Materials, Wroclaw, Poland, July 1–5, 2002.

Moretti, P.

A. Boudrioua, J. C. Loulergue, P. Moretti, B. Jacquier, G. Aka, and D. Vivien, Opt. Lett. 24, 1299 (1999).
[CrossRef]

A. Boudrioua, P. Moretti, J. C. Loulergue, and G. Aka, Opt. Lett. 23, 1680 (1998).
[CrossRef]

P. Moretti, M. F. Joubert, S. Tascu, B. Jacquier, M. Kaczkan, M. Malinovskii, and J. Sameski, presented at the Europhysical Conference on Defects in Insulating Materials, Wroclaw, Poland, July 1–5, 2002.

Mougel, F.

Nutt, A. C. G.

D. F. Clark, A. C. G. Nutt, K. K. Wong, P. J. R. Laybourn, and R. M. De La Rue, J. Appl. Phys. 54, 6218 (1983).
[CrossRef]

Pelenc, D.

Risk, W. P.

W. P. Risk, Appl. Phys. Lett. 58, 19 (1991).
[CrossRef]

Salin, F.

Sameski, J.

P. Moretti, M. F. Joubert, S. Tascu, B. Jacquier, M. Kaczkan, M. Malinovskii, and J. Sameski, presented at the Europhysical Conference on Defects in Insulating Materials, Wroclaw, Poland, July 1–5, 2002.

Tascu, S.

P. Moretti, M. F. Joubert, S. Tascu, B. Jacquier, M. Kaczkan, M. Malinovskii, and J. Sameski, presented at the Europhysical Conference on Defects in Insulating Materials, Wroclaw, Poland, July 1–5, 2002.

Townsend, P. D.

L. Babsail, G. Lifante, and P. D. Townsend, Appl. Phys. Lett. 59, 384 (1991).
[CrossRef]

P. D. Townsend, P. J. Chandler, and L. Zhang, Optical Effects of Ion Implantation (Cambridge U. Press, Cambridge, 1994).
[CrossRef]

Vivien, D.

Wong, K. K.

D. F. Clark, A. C. G. Nutt, K. K. Wong, P. J. R. Laybourn, and R. M. De La Rue, J. Appl. Phys. 54, 6218 (1983).
[CrossRef]

Zhang, L.

P. D. Townsend, P. J. Chandler, and L. Zhang, Optical Effects of Ion Implantation (Cambridge U. Press, Cambridge, 1994).
[CrossRef]

Appl. Phys. Lett.

W. P. Risk, Appl. Phys. Lett. 58, 19 (1991).
[CrossRef]

L. Babsail, G. Lifante, and P. D. Townsend, Appl. Phys. Lett. 59, 384 (1991).
[CrossRef]

J. Appl. Phys.

D. F. Clark, A. C. G. Nutt, K. K. Wong, P. J. R. Laybourn, and R. M. De La Rue, J. Appl. Phys. 54, 6218 (1983).
[CrossRef]

J. Opt. Soc. Am. B

Opt. Lett.

Opt. Photon. News

B. H. T. Chai, Opt. Photon. News 10(1), 31 (1999).
[CrossRef]

Other

P. D. Townsend, P. J. Chandler, and L. Zhang, Optical Effects of Ion Implantation (Cambridge U. Press, Cambridge, 1994).
[CrossRef]

Rainbow Photonics AG, Technoparkstrasse 1, CH-8005 Zurich, Switzerland; www.rainbowphotonics.ethz.ch .

P. Moretti, M. F. Joubert, S. Tascu, B. Jacquier, M. Kaczkan, M. Malinovskii, and J. Sameski, presented at the Europhysical Conference on Defects in Insulating Materials, Wroclaw, Poland, July 1–5, 2002.

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Figures (4)

Fig. 1
Fig. 1

Fabrication of channel waveguides by He+ implantation.

Fig. 2
Fig. 2

Images of the propagated light within GdCOB He+-implanted (a) planar and (b) channel waveguides.

Fig. 3
Fig. 3

Variation of SH signal versus fundamental wavelength. The experimental data are fitted by the theoretical standard sinc function of the SHG. Inset, image of the SHG blue-light waveguide. Mes., measured.

Fig. 4
Fig. 4

Variation of SH power versus pump power. The experimental data are fitted by a linear function with a slope of 1.9.

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