Geodesic
Optochemical fiber sensor for research of structural features of a solution
Proceedings of the Yerevan State University. Physical and mathematical sciences, no. 1 (2009), pp. 40-44.

Voir la notice de l'article provenant de la source Math-Net.Ru

The process of irradiation of light energy from optical fiber’s conic top covered with metal and dielectric layers is studied. As a dielectric layer is used the meniscus formed during an output of conic top from a solution. Peculiarities registered peak of radiation allow to explore structural features of solution.
Keywords: optical fiber’s conic top, optical sensor, resonant transfer of energy. 
@article{UZERU_2009_1_a7,
     author = {E. G. Gevorgyan},
     title = {Optochemical fiber sensor for research of structural features of a solution},
     journal = {Proceedings of the Yerevan State University. Physical and mathematical sciences},
     pages = {40--44},
     publisher = {mathdoc},
     number = {1},
     year = {2009},
     language = {en},
     url = {http://geodesic.mathdoc.fr/item/UZERU_2009_1_a7/}
}
TY  - JOUR
AU  - E. G. Gevorgyan
TI  - Optochemical fiber sensor for research of structural features of a solution
JO  - Proceedings of the Yerevan State University. Physical and mathematical sciences
PY  - 2009
SP  - 40
EP  - 44
IS  - 1
PB  - mathdoc
UR  - http://geodesic.mathdoc.fr/item/UZERU_2009_1_a7/
LA  - en
ID  - UZERU_2009_1_a7
ER  - 
%0 Journal Article
%A E. G. Gevorgyan
%T Optochemical fiber sensor for research of structural features of a solution
%J Proceedings of the Yerevan State University. Physical and mathematical sciences
%D 2009
%P 40-44
%N 1
%I mathdoc
%U http://geodesic.mathdoc.fr/item/UZERU_2009_1_a7/
%G en
%F UZERU_2009_1_a7
E. G. Gevorgyan. Optochemical fiber sensor for research of structural features of a solution. Proceedings of the Yerevan State University. Physical and mathematical sciences, no. 1 (2009), pp. 40-44. http://geodesic.mathdoc.fr/item/UZERU_2009_1_a7/

[1] N. Janunts, K. Baghdasaryan, Kh. Nerkararyan, B. Hecht, “Excitation and superfocusing of surface plasmon polaritons on a silver-coated optical fiber tip”, Opt.Comm., 253 (2005), 118–124 | DOI

[2] R.G. Hansperger, Integrated optics: Theory and technology, Springer, Berlin, 1984

[3] S. Kawata, M. Ohtsu, M. Irie, Nano-Optics, Springer, 2002

[4] R. Stöckle, C. Fokas, V. Deckert, R. Zenobi, B. Sick, B. Hecht, P. U. Wild, “High-quality near-field optical probes by tube etching”, Appl. Phys. Lett., 75 (1999), 160–164 | DOI

[5] E. Udd, Fiber Optics Sensors. An Introduction for Engineeris and Sceintists, Wiley, 1991

[6] T.S.F. Yu, Fiber Optics Sensors, Dekker, Marcel, 2002

[7] N.A. Janunts, Kh.V. Nerkararyan, “Modulation of light radiation during input into waveguide by resonance excitation of surface plasmons”, Appl. Phys. Lett., 79 (2001), 299–301 | DOI

[8] B. Saleh, M. Teich, Fundamentals of Photonics, Wiley, 1991

[9] J.R. Sambles et al, “Optical excitation of surface plasmons: An introduction”, Contemp. Phys., 32 (1991), 173 | DOI

[10] A. Babajanyan, N. Margaryan, Kh. Nerkararayan, “Superfocusing of surface polaritons in the conical structure”, J. Appl. Phys., 87 (2000), 3785–3788 | DOI

[11] E. Kretschmann, “Die Bestimmung optischer Konstanten von Metallen durch Anregung von Oberflächenplasmaschwingungen”, Z. Phys. A, 241 (1971), 313–317 | DOI

[12] K. Kurihara, K. Suzuki, “Theoretical Understanding of an Absorption-Based Surface Plasmon Resonance Sensor Based on Kretchmann's Theory”, Anal. Chem., 74 (2002), 696 | DOI

[13] K. Kurihara, K. Nakamura, K. Suzuki, “Asymmetric SPR sensor response curve-fitting equation for the accurate determination of SPR resonance angle”, Sens. Actuators B, 86 (2002), 49–57 | DOI

[14] R. Green, R. Frazier, K. Shakesheff, M. Davies, C. Roberts, S. Tendler, “Surface plasmon resonance analysis of dynamic biological interactions with biomaterials”, Biomaterials, 21 (2000), 1823–1835 | DOI

[15] H.-M. Haake, A. Schutz, G. Gauglitz, “Label-free detection of biomolecular interaction by optical sensors”, Fresenius J. Anal. Chem., 366 (2000), 576 | DOI

[16] K. Kurihara, H. Ohkawa, Y. Shinozaki, Y. Iwasaki, T. Tobita, O. Niwa, K. Suzuki, Proceedings of the Sixth European Conference on Optical Chemical Sensors and Biosensors, 2002, 155

[17] U. Schröter, A. Dereux, “Surface plasmon polaritons on metal cylinders with dielectric core”, Phys. Rev. B, 64 (2001), 125420 | DOI

[18] T. Ito, K. Sobue, S. Ohya, “Water glass bonding for micro-total analysis system”, Sens. and Actuators B, 81 (2002), 187–195 | DOI

[19] K. Kurihara, Y. Iwasaki, K. Suzuki, Proceedings of the Fifth European Conference on Optical Chemical Sensors and Biosensors, 2000, 55

[20] U. Rabe, K. Janser, W. Arnold, “Vibrations of free and surface-coupled atomic force microscope cantilevers: Theory and experiment”, Rev. Sci. Instrum., 67 (1996), 3281–3293 | DOI

[21] T. Abrahamyan, E. Janunts, Kh. Nerkararyan, Applied Optics, 45:32 (Detecting nanometric vibrations of a liquid surface by a metal-coated fiber tip), 8194–8196 | DOI

[22] H. Raether, Surface Plasmons on Smooth and Rough Surface and on Gratings, Springer-Verlag, Berlin, 1988