Influence of the Heating Processes on the Modal Attenuation Distribution in Planar Gradient Waveguides

• Authors: T. Kotyczka , R. Rogoziński
• Languages of publication: EN

Abstracts

EN

In this paper the influence of the heating processes on modal attenuation distribution in planar gradient waveguides produced by ion exchange method in soda-lime glass-Ag^{+} admixture arrangement is presented. The influence of heating processes on modal attenuation distribution in dependence on preliminary refractive profile shape was analysed. Numerical simulations were based on experimentally gained thermal diffusion coefficients of the exchanged ions.

Keywords

EN

81.20.Fw; 42.70.Ce; 07.07.Df

Discipline

• 42.70.Ce: Glasses, quartz
• 07.07.Df: Sensors (chemical, optical, electrical, movement, gas, etc.); remote sensing
• 81.20.Fw: Sol-gel processing, precipitation(for reactions in sol-gels, see 82.33.Ln; for sol-gels as disperse system, see 82.70.Gg)

• Publisher: Institute of Physics, Polish Academy of Sciences
• Journal: Acta Physica Polonica A
• Year: 2011
• Volume: 120
• Issue: 4
• Pages: 671-677

Dates

published

2011-10

Contributors

author

T. Kotyczka

• WASKO S.A., Berbeckiego 6, 44-100 Gliwice, Poland

author

R. Rogoziński

• Department of Optoelectronics, Silesian University of Technology, B. Krzywoustego 2, 44-100 Gliwice, Poland

References

• 1. G. Stewart, J. Norris, D.F. Clarc, B. Culshaw, Int. J. Optoelectron. 6, 227 (1991)
• 2. P. Karasiński, Opto-Electron. Rev. 19, 10 (2011)
• 3. P. Karasiński, R. Rogoziński, Opt. Commun. 269, 76 (2007)
• 4. H. Gnewuch, H. Renner, Appl. Opt. 34, 1473 (1995)
• 5. R. Rogoziński, Planar Waveguide Structures Produced by Ion Exchange in Glasses - Selected Aspects of Production Technology, Measurement of Optical Properties and Numerical Modelling of Structures, Monograph 135, Gliwice 2007 (in Polish)
• 6. R. Rogoziński, Proc. SPIE 7120, 71200F (2008)
• 7. R. Rogoziński, P. Karasiński, Opto-Electron. Rev. 13, 229 (2005)
• 8. R. Rogoziński, Opt. Appl. 34, 489 (2004)
• 9. R. Rogoziński, Opt. Appl. 28, 331 (1998)
• 10. P. Karasiński, R. Rogoziński, Proc. SPIE 5576, 181 (2004)
• 11. P. Karasiński, Proc. SPIE 6608, 66080W (2007)
• 12. C. Tyszkiewicz, P. Karasiński, R. Rogoziński, Acta Phys. Pol. A 118, 1262 (2010)
• 13. A.W. Snyder, J.D. Love, Opical Waveguide Theory, Chapman and Hall, London 1983
• 14. E. Anemogiannis, E.N. Glytsis, J. Lightwave Technol. 10, 1344 (1992)
• 15. C. Chen, P. Berini, D. Feng, S. Tanev, V.P. Tzolov, Opt. Expr. 7, 260 (2000)

Identifiers

DOI

10.12693/APhysPolA.120.671