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Stochastic model of energy transfer processes among rare earth ions
Author(s): P. Loiko; M. Pollnau
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Paper Abstract

Energy-transfer processes strongly affect the performance of lanthanide-doped photonic devices. In this work, we introduce a simple stochastic model of energy-transfer processes and successfully apply it to the example of crossrelaxation (CR) and energy-transfer upconversion (ETU) in amorphous Al2O3:Tm3+ waveguides on silicon intended for lasers operating at ~2 μm. The stochastic model is based on the rate-equation formalism and considers two spectroscopically distinct ion classes, namely single ions and ions with neighbours (pairs and clusters), with the corresponding ion fractions being dependent on the doping concentration. We prove that a more accurate description of the luminescence properties of amorphous Al2O3:Tm3+ is obtained when accounting for the presence of these distinct ion classes. Based on the developed model, we derive microscopic CR and ETU parameters of CCR = 5.83×10-38 cm6 s -1 , CETU1 = 0.93×10-40 cm6 s -1 , and CETU2 = 7.81×10-40 cm6 s -1 , and determine the laser quantum efficiency ηq of excitation of Tm3+ ions in the upper laser level. For the maximum Tm3+ concentration of 5.0×1020 cm-3 studied experimentally in this investigation, ηq reaches 1.73. Furthermore, the transition cross-sections at the pump and laser wavelengths are determined. For the 3H63F4 transition, the maximum stimulated-emission cross-section is σe = 0.47 × 10-20 cm2 at 1808 nm.

Paper Details

Date Published: 17 May 2018
PDF: 8 pages
Proc. SPIE 10683, Fiber Lasers and Glass Photonics: Materials through Applications, 106831X (17 May 2018); doi: 10.1117/12.2307028
Show Author Affiliations
P. Loiko, KTH Royal Institute of Technology (Sweden)
M. Pollnau, KTH-Royal Institute of Technology (Sweden)
Univ. of Surrey (United Kingdom)

Published in SPIE Proceedings Vol. 10683:
Fiber Lasers and Glass Photonics: Materials through Applications
Stefano Taccheo; Jacob I. Mackenzie; Maurizio Ferrari, Editor(s)

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