Abstract
In order to simulate surface plasmon waveguide structures we have utilized and improved the adaptive spatial resolution technique and combined it with PML boundary conditions. Using this new technique we have developed a novel concept for an integrated surface plasmon biosensor.
Similar content being viewed by others
References
Bienstman P. (2004). Opt. Quant. Electron. 36(1/3): 5
Bienstman P., Baets R. (2002). Opt. Quant. Electron. 34(5/6): 523
Čtyrockýtyrocký J., Homola J., Lambeck P.V., Musa S., Hoekstra H.J.W.M., Harris R.D., Wilkinson J.S., Usievich B., Lyndin N.M. (1999). Sensor Actuator B 54: 66
Debackere P., Scheerlinck S., Bienstman P., Baets R. (2006). Opt. Exp. 14(16): 7063
Granet G. (1999). JOSA 16(10): 2510
Granet G., Guizal B. (1996). JOSA 13(5): 1019
Harris R.D., Wilkinson J.S. (1995). Sensors Actuators B 29: 261
Homola J., Čtyrocký J., Skalský M., Hradilová J., Kolářová P. (1997). Sensors Actuators B 38–39: 286
Li L. (1996). JOSA 13(9): 1870
Li L. (2002). JOSA Commun. 19(7): 1443
Lalanne P., Morris M. (1996). JOSA 13(4): 779
Lalanne P., Silberstein E. (2000). Opt. Lett. 25(15): 1092
Moharam M.G., Gaylord T.K. (1983). JOSA 73: 451
Vallius T., Honkanen M. (2001) Opt. Exp. 10(1): 24
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Debackere, P., Bienstman, P. & Baets, R. Adaptive spatial resolution: application to surface plasmon waveguide modes. Opt Quant Electron 38, 857–867 (2006). https://doi.org/10.1007/s11082-006-9010-3
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s11082-006-9010-3