Building on the results in [l], the authors have determined that the gain dynamics of a doped-fibre amplifer are completely specified by its total number of excited ions whose time behaviour is described by a simple first-order differential equation. An equivalent electrical circuit is derived, so that any circuit analysis package can be used to solve for complex networks of optical fibre amplifiers.

Simple dynamic model of fibre amplifiers andequivalent electric circuit / Bononi, Alberto; L. A., Rusch; L., Tancevski. - In: ELECTRONICS LETTERS. - ISSN 0013-5194. - 33:(1997), pp. 1887-1888. [10.1049/el:19971273]

Simple dynamic model of fibre amplifiers andequivalent electric circuit

BONONI, Alberto;
1997-01-01

Abstract

Building on the results in [l], the authors have determined that the gain dynamics of a doped-fibre amplifer are completely specified by its total number of excited ions whose time behaviour is described by a simple first-order differential equation. An equivalent electrical circuit is derived, so that any circuit analysis package can be used to solve for complex networks of optical fibre amplifiers.
1997
Simple dynamic model of fibre amplifiers andequivalent electric circuit / Bononi, Alberto; L. A., Rusch; L., Tancevski. - In: ELECTRONICS LETTERS. - ISSN 0013-5194. - 33:(1997), pp. 1887-1888. [10.1049/el:19971273]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11381/1506302
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