Generation of 2.8 µm fiber laser using an Erbium‐doped ZBLAN double‐clad fiber in a linear‐cavity‐free space experimental setup

Mid‐infrared (MIR) fiber lasers are highly demand after for a variety of technological applications, including uses such as laser surgery, frequency metrology, and spectroscopy. This paper demonstrates a stable continuous‐wave laser operation in the 2.8 µm using an Er3+‐doped ZBLAN fiber operating i...

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Veröffentlicht in:	Microwave and optical technology letters 2024-04, Vol.66 (4), p.n/a
Hauptverfasser:	Cheng, X.S., Lip, Z.H., Tan, S.J., Latiff, A.A., Harun, S.W.
Format:	Artikel
Sprache:	eng
Schlagworte:	fluoride fiber free space setup mid‐infrared fiber laser
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creator	Cheng, X.S. Lip, Z.H. Tan, S.J. Latiff, A.A. Harun, S.W.
description	Mid‐infrared (MIR) fiber lasers are highly demand after for a variety of technological applications, including uses such as laser surgery, frequency metrology, and spectroscopy. This paper demonstrates a stable continuous‐wave laser operation in the 2.8 µm using an Er3+‐doped ZBLAN fiber operating in a free space experimental setting. A laser output power of 12.4 mW was attained in a linear cavity when this fiber was pumped at 2.9 W of 980 nm laser diode.
doi_str_mv	10.1002/mop.34161
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subjects	fluoride fiber free space setup mid‐infrared fiber laser
title	Generation of 2.8 µm fiber laser using an Erbium‐doped ZBLAN double‐clad fiber in a linear‐cavity‐free space experimental setup
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