Open Access2.1μm Emission Spectral Properties of Tm and Ho Doped Transparent YAG Ceramic
Author(s) -
G.A. Kumar,
Madhab Pokhrel,
Dhiraj K. Sardar,
P. Samuel,
Ken Ueda,
Takahiko Yanagitani,
H. Yagi
Publication year - 2012
Publication title -
science of advanced materials
Language(s) - English
Resource type - Journals
eISSN - 1947-2943
pISSN - 1947-2935
DOI - 10.1166/sam.2012.1328
Subject(s) - materials science , ceramic , radiative transfer , fluorescence , transparent ceramics , analytical chemistry (journal) , doping , laser , emission spectrum , infrared , branching fraction , absorption (acoustics) , attenuation coefficient , absorption spectroscopy , optics , stimulated emission , optoelectronics , atomic physics , spectral line , physics , chemistry , composite material , chromatography , astronomy
Highly transparent Tm:Ho:YAG transparent ceramics were prepared using advanced ceramic technology and their spectroscopic properties were studied for infrared laser applications. Following the Judd-Ofelt procedure several spectroscopic properties such as the radiative transition probability (Arad), radiative decay time ( rad) and fluorescence branching ratio ( ) are quantitatively obtained from the absorption spectrum. The absorption and emission cross sections corresponding to the 5I7 → 5 I8 transition of Ho 3+ at 2.1 m have been evaluated following Mc Cumber theory and found that the obtained emission spectrum very well correlates to the simulated emission spectral data. The optical gain spectrum spread from 1800 nm to 2150 nm with a spectral width of over 107 nm and maximum gain coefficient of 0.44 cm −1 . Thus it is expected that the Tm 3+ :Ho 3+ :YAG ceramics
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