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.com

Volume 4, Issue 4 (Suppl)

J Laser Opt Photonics, an open access journal

ISSN: 2469-410X

Optics 2017

November 15-17, 2017

November 15-17, 2017 | Las Vegas, USA

8

th

International Conference and Exhibition on

Lasers, Optics & Photonics

Technique of optical frequency comb generation from a bismuth-based harmonically mode-locked fiber

laser

Yutaka Fukuchi

Tokyo University of Science, Japan

O

ptical frequency comb generators can offer several attractive applications such as wideband multi-wavelength lasers, ultra-short

pulse generation, coherent optical waveform syntheses, ultra-fast signal processing, high resolution spectroscopy and optical

frequency reference. High stability, high coherence, high efficiency, low noise, low cost, wide bandwidth and spectral flatness are

commonly required for those applications. Among many potential comb sources, harmonically mode-locked fiber lasers are a popular

solution owing to their abilities such as wavelength tunability, short pulse width, small timing jitter and high repetition frequency in

the gigahertz region. However, since the harmonically mode-locked fiber lasers usually employ silica-based erbium-doped fibers as

the gain media, the range of the wavelength tunability is limited to either the conventional wavelength band or the longer wavelength

band. Furthermore, it is generally difficult for each frequency comb component generated by the harmonically mode-locked fiber

lasers to have the same intensity. In this paper, we review a technique for producing a tunable and flat frequency comb from a 10 GHz

bismuth-based harmonically mode-locked fiber laser. The output characteristics are as follows. The center wavelength can be tuned

from 1535 nm to 1585 nm. The comb spectrum can be flatly broadened up to 2.4 nm (300 GHz) with 30 comb lines. The spectral

width and the pulse width can be tuned from 0.23 nm to 2.4 nm and from 3.0 ps to 20.1 ps, respectively. Throughout the entire tuning

ranges, this laser can maintain stable bit-error-free mode-locking operation within a received power deviation of 3.0 dB.

Biography

Yutaka Fukuchi received his BS and MS degrees in Electronics Engineering from Tokyo University of Science, Japan in 1998 and 2000, respectively and completed his

PhD degree in Electronics Engineering from University of Tokyo, Japan in 2003. In 2003, he joined the Department of Electrical Engineering, Tokyo University of Science.

Since 2009, he has been an Associate Professor in this department. From 2013 to 2014, he was a Visiting Research Fellow with the Department of Photonics Engineering,

Technical University of Denmark. His research interests are nonlinear optics and their applications.

fukuchi@ee.kagu.tus.ac.jp

Yutaka Fukuchi, J Laser Opt Photonics 2017, 4:4 (Suppl)

DOI: 10.4172/2469-410X-C1-017