What is it about?

Q-switched thulium-doped fiber laser (TDFL) is demonstrated using pencil-core flakes as a saturable absorber (SA) for the first time. The SA was fabricated by exfoliating pencil-core flakes on adhesive tape surface, then repeatedly folded over the tape until the flakes homogenously deposited on the tape. A small piece of the tape is sandwiched between two ferrules and incorporated in TDFL cavity to realize a stable Q-switching pulse train. By increasing the 1552-nm pump power from 389 to 431 mW, the repetition rate of the TDFL increases from 14.95 to 34.60 kHz while the pulse width decreases from 6.70 to 4.69 μs. The maximum pulse energy of 46.05 nJ is generated with repetition rate and pulse width of 21.25 kHz and 6.27 μs, respectively. To the best our knowledge, this is a first demonstration SA from mundane object as alternative to commercial bulk graphite for Q-switched fiber laser.

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Why is it important?

A Q-switched TDFL has been achieved using pencil core-based SA. The SA is fabricated by cleaving the pencil-core flakes onto adhesive surface of tape, which is then repeatedly folded over to homogeneously distribute the graphite layer on the tape.

Perspectives

Application of pencil core as saturable absorber in the Q-switched TDFL for ring cavity.

Ir. Dr. HANAFIAH SHAMSUDIN
University of Malaya

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This page is a summary of: Q-switched thulium-doped fiber laser operating at 1940 nm region using a pencil-core as saturable absorber, Journal of Modern Optics, October 2015, Taylor & Francis,
DOI: 10.1080/09500340.2015.1100342.
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