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Proceedings Paper

Spectroscopic properties of Er-doped Y2O3 ceramic related to mid-IR laser transition
Author(s): Tigran Sanamyan; Zackery Fleischman
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Paper Abstract

We have recently demonstrated efficient high power CW laser operation in Er doped Y2O3 at cryogenic temperature. The selection of laser host was based on the low-phonon nature of Y2O3, where the 4I11/24I13/2 transition is highly radiative. Further increases in mid-IR power scaling and efficiency require in-depth study and analysis of basic spectroscopic properties of the 4I11/24I13/2 laser transition, such as laser emission cross- sections, fluorescence quantum efficiency, fluorescence branching ratios and inter-ionic interactions in a wide dopant-concentration and temperature range. In this work, we report the results of experimental measurements of quantum efficiency and branching ratio of the erbium initial laser state of 4I11/2 in Y2O3 ceramic at the temperature range of 10 - 300 K. A series of Er:Y2O3 samples with dopant concentration between 0.2-10 at.% were used for fluorescence and absorption measurements. The fluorescence from the energy states corresponding to the visible, IR, and mid-IR transitions were studied under shortpulsed diode laser excitation. Spectrally-narrowed fiber-coupled semiconductor laser modules emitting at ~ 808, 980, and 1530 nm with variable power density were used for fluorescence excitation of three different Er states. The energy transfer processes for both down- and up-conversion, affecting the Er:Y2O3 mid-IR laser operation, were analyzed. A comparison between the experimental and simulation results are presented as well.

Paper Details

Date Published: 20 May 2015
PDF: 9 pages
Proc. SPIE 9466, Laser Technology for Defense and Security XI, 94660I (20 May 2015); doi: 10.1117/12.2179379
Show Author Affiliations
Tigran Sanamyan, U.S. Army Research Lab. (United States)
Zackery Fleischman, U.S. Army Research Lab. (United States)

Published in SPIE Proceedings Vol. 9466:
Laser Technology for Defense and Security XI
Mark Dubinskii; Stephen G. Post, Editor(s)

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