General procedure for the analysis of Er<sup>3+</sup> cross sections

W. J. Miniscalco; R. S. Quimby

doi:10.1364/OL.16.000258

Optics Letters
Vol. 16,
Issue 4,
pp. 258-260
(1991)
•https://doi.org/10.1364/OL.16.000258

General procedure for the analysis of Er³⁺ cross sections

W. J. Miniscalco and R. S. Quimby

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W. J. Miniscalco and R. S. Quimby, "General procedure for the analysis of Er³⁺ cross sections," Opt. Lett. 16, 258-260 (1991)

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Abstract

We have applied the theory of McCumber to the ⁴4I_13/2 ↔ ⁴I_15/2 transition of Er³⁺-doped glasses and confirmed its ability to provide both spectra and accurate values of cross sections. For an Al/P–silica fiber, the exact McCumber treatment is within 3% of the measured emission cross section, whereas an Einstein analysis is off by >50%. An approximate treatment that eliminates the McCumber theory’s requirement of detailed electronic structure has been developed and found to usually provide more accurate values than an Einstein analysis.

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	Peak σ_e (10⁻²¹ cm²)

Glass	Measured	McCumber (approximate)	Einstein
Al/P-silica fiber	5.70	7.27	8.59
Silicate (L22)	7.27	8.46	7.72
Fluorophosphate (L11)	7.16	6.86	9.06
Fluorophosphate (L14)	5.79	5.71	7.62

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