Design of an Efficient Pulsed Dy3+: ZBLAN Fiber Laser Operating in Gain Switching Regime

Design of an Efficient Pulsed Dy3+: ZBLAN Fiber Laser Operating in Gain Switching Regime

A time-dependent numerical model of a dysprosiumdoped ZBLAN glass fiber is developed in order to design a pulsed laser emitting at about 3 μm wavelength, by employing an in-band pumping scheme. A number of design parameters are changed to optimize the laser performance. Gain-switching regime with an...

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Veröffentlicht in:Journal of lightwave technology 2018-12, Vol.36 (23), p.5327-5333
Hauptverfasser: Falconi, Mario Christian, Laneve, Dario, Bozzetti, Michele, Fernandez, Toney Teddy, Galzerano, Gianluca, Prudenzano, Francesco
Format: Artikel
Sprache:eng
Schlagworte:
Absorption
Biomonitoring
Cavity resonators
Computer simulation
Design optimization
Design parameters
Dysprosium
Environmental monitoring
fiber laser
Fiber lasers
gain switching
Glass
Glass fibers
Laser excitation
Laser modes
Lasers
Mathematical model
Mathematical models
middle infrared
Organic chemistry
Plasma
Pulse duration
Pulsed lasers
Pump lasers
Switching
Time dependence
ZBLAN glass
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Zusammenfassung:A time-dependent numerical model of a dysprosiumdoped ZBLAN glass fiber is developed in order to design a pulsed laser emitting at about 3 μm wavelength, by employing an in-band pumping scheme. A number of design parameters are changed to optimize the laser performance. Gain-switching regime with an output signal peak power close to 59 W and a full width at half maximum pulse duration shorter than 184 ns is simulated for a fiber with dopant concentration of 2000 ppm, by employing a pulsed input pump with a peak power of 5 W and a repetition rate of 100 kHz at the wavelength of 2.8 μm. These characteristics are very promising and theoretically predict the feasibility of a laser, which can find application in many areas such as chemical, biological, and environmental monitoring.
ISSN:0733-8724
1558-2213
DOI:10.1109/JLT.2018.2871665