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Título
Two-photon luminescence thermometry: towards 3D high-resolution thermal imaging of waveguides
Autor(es)
Palabras clave
Imaging techniques
Phase matching
Refractive index
Thermal imaging
Three dimensional imaging
Ultrafast lasers
Fecha de publicación
2016-07
Citación
Ruiyun He, Javier Rodríguez Vázquez de Aldana, Ginés Lifante Pedrola, Feng Chen, and Daniel Jaque, "Two-photon luminescence thermometry: towards 3D high-resolution thermal imaging of waveguides," Opt. Express 24, 16156-16166 (2016)
Resumen
We report on the use of the Erbium-based luminescence thermometry to realize high resolution, three dimensional thermal imaging of optical waveguides. Proof of concept is demonstrated in a 980-nm laser pumped ultrafast laser inscribed waveguide in Er:Yb phosphate glass. Multi-photon microscopy images revealed the existence of well confined intra-waveguide temperature increments as large as 200 °C for moderate 980-nm pump powers of 120 mW. Numerical simulations and experimental data reveal that thermal loading can be substantially reduced if pump events are separated more than the characteristic thermal time that for the waveguides investigated is in the ms time scale.
URI
DOI
10.1364/OE.24.016156
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- ALF. Artículos [314]