Ultrashort pulse generation with mxene ti3c2tx embedded in PVA and deposited onto d-shaped fiber

Ultrashort pulse generation with mxene ti3c2tx embedded in PVA and deposited onto d-shaped fiber

A two-dimensional ternary metal carbide or/and nitride known as MXene, own countless merits in terms of electronic and optical properties. Owning to its fast optical-switching capability, strong saturable absorption, good optical damage tolerant, and gapless materials, it attracts a bunch of researc...

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Main Authors: Jafry, A. A. A., Muhammad, A. R., Kasim, N., Rosol, A. H. A., Rusdi, M. F. M., Ab. Alim, N. N. N., Harun, S. W., Yupapin, P.
Format: Article
Published: Elsevier Ltd. 2021
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QC Physics
Online Access:http://eprints.utm.my/id/eprint/94717/
http://dx.doi.org/10.1016/j.optlastec.2020.106780
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Institution: Universiti Teknologi Malaysia
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spelling my.utm.947172022-03-31T15:13:43Z http://eprints.utm.my/id/eprint/94717/ Ultrashort pulse generation with mxene ti3c2tx embedded in PVA and deposited onto d-shaped fiber Jafry, A. A. A. Muhammad, A. R. Kasim, N. Rosol, A. H. A. Rusdi, M. F. M. Ab. Alim, N. N. N. Harun, S. W. Yupapin, P. QC Physics A two-dimensional ternary metal carbide or/and nitride known as MXene, own countless merits in terms of electronic and optical properties. Owning to its fast optical-switching capability, strong saturable absorption, good optical damage tolerant, and gapless materials, it attracts a bunch of research efforts in an ultrafast photonics application. Here, the development of MXene-based SA devices for ultrafast laser in an erbium-doped fiber laser (EDFL) cavity was demonstrated. Two MXene Ti3C2Tx-based SAs were prepared, which were a thin film of MXene (MXene-film) and MXene deposited onto D-shaped fiber (MXene-DS), both revealed good nonlinear transmittance properties. The selective etching was used to provide a high-quality MXene powder, and the solution-casting method produced liquid MXene, which was dried to form a thin-film structure, and the liquid MXene was deposited onto the D-shaped fiber structure. The MXene-film and MXene-DS own a modulation depth of 1.22% and 3%, respectively. Later, both SA devices were incorporated into an EDFL cavity, and MXene-film initiated mode-locked (ML) at the low threshold pump of 44 mW, while MXene-DS produce ML at the pump power of 90 mW. The MXene-film generates a 3.64 ps ML with a pulse energy of 6.03 nJ, separately, MXene-DS initiates a 4.6 ps ML with a pulse energy of 7.69 nJ, highest ever reported among MXene-based SA. This demonstration provides a pathway toward high-energy mode-locking applications in the future. Elsevier Ltd. 2021 Article PeerReviewed Jafry, A. A. A. and Muhammad, A. R. and Kasim, N. and Rosol, A. H. A. and Rusdi, M. F. M. and Ab. Alim, N. N. N. and Harun, S. W. and Yupapin, P. (2021) Ultrashort pulse generation with mxene ti3c2tx embedded in PVA and deposited onto d-shaped fiber. Optics and Laser Technology, 136 . ISSN 0030-3992 http://dx.doi.org/10.1016/j.optlastec.2020.106780 DOI: 10.1016/j.optlastec.2020.106780
institution Universiti Teknologi Malaysia
building UTM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Malaysia
content_source UTM Institutional Repository
url_provider http://eprints.utm.my/
topic QC Physics
spellingShingle QC Physics
Jafry, A. A. A.
Muhammad, A. R.
Kasim, N.
Rosol, A. H. A.
Rusdi, M. F. M.
Ab. Alim, N. N. N.
Harun, S. W.
Yupapin, P.
Ultrashort pulse generation with mxene ti3c2tx embedded in PVA and deposited onto d-shaped fiber
description A two-dimensional ternary metal carbide or/and nitride known as MXene, own countless merits in terms of electronic and optical properties. Owning to its fast optical-switching capability, strong saturable absorption, good optical damage tolerant, and gapless materials, it attracts a bunch of research efforts in an ultrafast photonics application. Here, the development of MXene-based SA devices for ultrafast laser in an erbium-doped fiber laser (EDFL) cavity was demonstrated. Two MXene Ti3C2Tx-based SAs were prepared, which were a thin film of MXene (MXene-film) and MXene deposited onto D-shaped fiber (MXene-DS), both revealed good nonlinear transmittance properties. The selective etching was used to provide a high-quality MXene powder, and the solution-casting method produced liquid MXene, which was dried to form a thin-film structure, and the liquid MXene was deposited onto the D-shaped fiber structure. The MXene-film and MXene-DS own a modulation depth of 1.22% and 3%, respectively. Later, both SA devices were incorporated into an EDFL cavity, and MXene-film initiated mode-locked (ML) at the low threshold pump of 44 mW, while MXene-DS produce ML at the pump power of 90 mW. The MXene-film generates a 3.64 ps ML with a pulse energy of 6.03 nJ, separately, MXene-DS initiates a 4.6 ps ML with a pulse energy of 7.69 nJ, highest ever reported among MXene-based SA. This demonstration provides a pathway toward high-energy mode-locking applications in the future.
format Article
author Jafry, A. A. A.
Muhammad, A. R.
Kasim, N.
Rosol, A. H. A.
Rusdi, M. F. M.
Ab. Alim, N. N. N.
Harun, S. W.
Yupapin, P.
author_facet Jafry, A. A. A.
Muhammad, A. R.
Kasim, N.
Rosol, A. H. A.
Rusdi, M. F. M.
Ab. Alim, N. N. N.
Harun, S. W.
Yupapin, P.
author_sort Jafry, A. A. A.
title Ultrashort pulse generation with mxene ti3c2tx embedded in PVA and deposited onto d-shaped fiber
title_short Ultrashort pulse generation with mxene ti3c2tx embedded in PVA and deposited onto d-shaped fiber
title_full Ultrashort pulse generation with mxene ti3c2tx embedded in PVA and deposited onto d-shaped fiber
title_fullStr Ultrashort pulse generation with mxene ti3c2tx embedded in PVA and deposited onto d-shaped fiber
title_full_unstemmed Ultrashort pulse generation with mxene ti3c2tx embedded in PVA and deposited onto d-shaped fiber
title_sort ultrashort pulse generation with mxene ti3c2tx embedded in pva and deposited onto d-shaped fiber
publisher Elsevier Ltd.
publishDate 2021
url http://eprints.utm.my/id/eprint/94717/
http://dx.doi.org/10.1016/j.optlastec.2020.106780
_version_ 1729703211623776256

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