Silica–titania planar waveguides of different thicknesses and compositions have been produced by radio-frequency sputtering and dip coating on silica substrates. Waveguides were also produced by silver exchange on a soda-lime silicate glass substrate. Brillouin scattering of the samples has been studied by coupling the exciting laser beam with a prism to different transverse-electric (TE) modes of the waveguides, and collecting the scattered light from the front surface. In multimode waveguides, the spectra depend on the m mode of excitation. For waveguides with a step index profile, two main peaks due to longitudinal phonons are present, apart from the case of the excitation, where a single peak is observed. The energy separation between the two peaks increases with the mode index. In graded-index waveguides, peaks of comparable intensities are observed. The spectra are reproduced very well by a model which considers the space distribution of the exciting field in the mode, a simple space dependence of the elasto-optic coefficients, through the value of the refraction index, and neglects the refraction of phonons. A single-fit parameter, i.e., the longitudinal sound velocity, is used to calculate as many spectra as is the number of modes in the waveguide.
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15 October 2003
Research Article|
October 15 2003
Brillouin scattering in planar waveguides. II. Experiments
A. Chiasera;
A. Chiasera
Dipartimento di Fisica, Università di Trento and INFM, via Sommarive 14, I-38050 Trento, Italy
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M. Montagna;
M. Montagna
Dipartimento di Fisica, Università di Trento and INFM, via Sommarive 14, I-38050 Trento, Italy
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E. Moser;
E. Moser
Dipartimento di Fisica, Università di Trento and INFM, via Sommarive 14, I-38050 Trento, Italy
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F. Rossi;
F. Rossi
Dipartimento di Fisica, Università di Trento and INFM, via Sommarive 14, I-38050 Trento, Italy
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C. Tosello;
C. Tosello
Dipartimento di Fisica, Università di Trento and INFM, via Sommarive 14, I-38050 Trento, Italy
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M. Ferrari;
M. Ferrari
CNR-IFN, Istituto di Fotonica e Nanotecnologie, via Sommarive 14, I-38050 Trento, Italy
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L. Zampedri;
L. Zampedri
CNR-IFN, Istituto di Fotonica e Nanotecnologie, via Sommarive 14, I-38050 Trento, Italy
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S. Caponi;
S. Caponi
Dipartimento di Fisica, Università dell’Aquila and INFM, via Betoio Coppito, I-67100 L’Aquila, Italy
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R. R. Gonçalves;
R. R. Gonçalves
Istituto de Quimica-UNESP, P.O. Box 355, 14801-970-Araraquara, SP, Brazil
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S. Chaussedent;
S. Chaussedent
Laboratoire POMA, Unité Mixte de Recherche associée au CNRS 6136, Université d’Angers, 2 boulevard Lavoisier, 49045 Angers, France
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A. Monteil;
A. Monteil
Laboratoire POMA, Unité Mixte de Recherche associée au CNRS 6136, Université d’Angers, 2 boulevard Lavoisier, 49045 Angers, France
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D. Fioretto;
D. Fioretto
Dipartimento di Fisica, Università di Perugia and INFM, via Pascoli, I-06123 Perugia, Italy
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G. Battaglin;
G. Battaglin
Dipartimento di Chimica Fisica, Università di Venezia and INFM, Dorsoduro 2137, I-30123 Venezia, Italy
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F. Gonella;
F. Gonella
Dipartimento di Chimica Fisica, Università di Venezia and INFM, Dorsoduro 2137, I-30123 Venezia, Italy
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P. Mazzoldi;
P. Mazzoldi
Dipartimento di Fisica, Università di Padova and INFM, via Marzolo 8, I-35131 Padova, Italy
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G. C. Righini
G. C. Righini
CNR-IFAC Institute of Applied Physics “Nello Carrara,” via Panciatichi 64, I-50127 Firenze, Italy
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J. Appl. Phys. 94, 4882–4889 (2003)
Article history
Received:
February 06 2003
Accepted:
July 17 2003
Connected Content
This is a companion to:
Brillouin scattering in planar waveguides. I. Numerical model
Citation
A. Chiasera, M. Montagna, E. Moser, F. Rossi, C. Tosello, M. Ferrari, L. Zampedri, S. Caponi, R. R. Gonçalves, S. Chaussedent, A. Monteil, D. Fioretto, G. Battaglin, F. Gonella, P. Mazzoldi, G. C. Righini; Brillouin scattering in planar waveguides. II. Experiments. J. Appl. Phys. 15 October 2003; 94 (8): 4882–4889. https://doi.org/10.1063/1.1607520
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