Analysis of giant pulse amplification in Nd³⁺doped glass

Author

Dumanchin, R. ; Farcy, J.C. ; Michon, M. ; Vincent, P.

Author_Institution

Compagnie Générale d́Electricité, Laboratories de Marcoussis, Marcoussis, France

Volume

7

Issue

2

fYear

1971

fDate

2/1/1971 12:00:00 AM

Firstpage

53

Lastpage

59

Abstract

In a study of the mechanism of giant pulse amplification in Nd³⁺doped glass, the following measurements have been made: 1) energy extracted from an amplifier as a function of the input energy, 2) relative fluorescence intensity at 0.9μ in a slab, pumped by the emission of a ruby laser, and 3) gain variation after the transit of an intense, short, rectangular pulse. The experimental results have been compared to theoretical results from a model where both metastable and terminal levels are regarded as comprising two components. The unknown multiplicity of the lower component of the terminal level g11appears as a parameter. It is assumed that during the pulse duration, Boltzmann distribution is maintained between the components of each level. A finite terminal level lifetime τnmay be introduced in the model. Best agreement is obtained with the following values of the parameters: amplification cross section $\\sigma _{21}\\simeq 1.8.10^{-20}$ cm², $g_{11} = 1$ or 2, and $\\tau _{11} \\geq 100$ ns.

Keywords

Energy measurement; Fluorescence; Gain measurement; Glass; Laser excitation; Neodymium; Optical pulses; Pulse amplifiers; Pulse measurements; Slabs;

fLanguage

English

Journal_Title

Quantum Electronics, IEEE Journal of

Publisher

ieee

ISSN

0018-9197

Type

jour

DOI

10.1109/JQE.1971.1076592

Filename

1076592

Analysis of giant pulse amplification in Nd3+doped glass

Dumanchin, R. ; Farcy, J.C. ; Michon, M. ; Vincent, P.

jour

Analysis of giant pulse amplification in Nd³⁺doped glass