Passively Q-switched erbium-doped fiber laser utilizing tungsten oxide as a saturable absorber

We demonstrated a passively $Q$Q-switched fiber laser utilizing tungsten oxide (${\rm WO_{3}}$WO ) thin film as a saturable absorber (SA). The ${\rm WO_{3} {\text -} SA}$WO -SA was sandwiched as a polymer composite film between fiber ferrules in an erbium-doped fiber cavity. ${\rm WO_{3}}$WO exhibit...

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Bibliographic Details
Published in:Applied optics (2004) 2019-12, Vol.58 (36), p.9768
Main Authors: Nady, A, Salhi, M, Harun, S W
Format: Article
Language:English
Subjects:
Absorbers
Doped fibers
Erbium
Fiber lasers
Laser applications
Lasers
Nonlinear response
Polymer films
Polymer matrix composites
Pulse duration
Q switched lasers
Semiconductor lasers
Thin films
Tungsten oxides
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Summary:We demonstrated a passively $Q$Q-switched fiber laser utilizing tungsten oxide (${\rm WO_{3}}$WO ) thin film as a saturable absorber (SA). The ${\rm WO_{3} {\text -} SA}$WO -SA was sandwiched as a polymer composite film between fiber ferrules in an erbium-doped fiber cavity. ${\rm WO_{3}}$WO exhibits high nonlinear optical response characterized by an appropriate modulation depth of 10% and a saturation intensity of ${100}\;{{\rm MW/cm}^2}$100MW/cm . The fiber cavity starts to generate a stable pulse train whereby as the pump power increases from 45 to 165 mw, the repetition rate increases from 16.75 to 56.3 kHz, while the pulse width decreases from 13.8 to 4.3 µs. The $Q$Q-switched laser generated maximum pulse energy of 6.6 nJ obtained at 165 mW, which was the maximum pump power available by the used laser diode. This is, to the best of our knowledge, the first demonstration of a $Q$Q-switched fiber laser based on the ${\rm WO_{3} {\text -} SA}$WO -SA, which could contribute as a new potential SA material in the field of pulsed fiber lasers.
ISSN:1559-128X
2155-3165
DOI:10.1364/AO.58.009768