A femtosecond pulse fiber laser at 1935 nm using a bulk-structured Bi2Te3 topological insulator.
Identifieur interne : 000219 ( PubMed/Checkpoint ); précédent : 000218; suivant : 000220A femtosecond pulse fiber laser at 1935 nm using a bulk-structured Bi2Te3 topological insulator.
Auteurs : Minwan Jung ; Junsu Lee ; Joonhoi Koo ; Jaehyun Park ; Yong-Won Song ; Kwanil Lee ; Sangbae Lee ; Ju Han LeeSource :
- Optics express [ 1094-4087 ] ; 2014.
Abstract
We experimentally demonstrate a femtosecond mode-locked, all-fiberized laser that operates in the 2 μm region and that incorporates a saturable absorber based on a bulk-structured bismuth telluride (Bi(2)Te(3)) topological insulator (TI). Our fiberized saturable absorber was prepared by depositing a mechanically exfoliated, ~30 μm-thick Bi(2)Te(3) TI layer on a side-polished optical fiber platform. The bulk crystalline structure of the prepared Bi(2)Te(3) layer was confirmed by Raman and X-ray photoelectron spectroscopy measurements. The modulation depth of the prepared saturable absorber was measured to be ~20.6%. Using the saturable absorber, it is shown that stable, ultrafast pulses with a temporal width of ~795 fs could readily be generated at a wavelength of 1935 nm from a thulium/holmium co-doped fiber ring cavity. This experimental demonstration confirms that bulk structured, TI-based saturable absorbers can readily be used as an ultra-fast mode-locker for 2 μm lasers.
PubMed: 24718162
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<author><name sortKey="Jung, Minwan" sort="Jung, Minwan" uniqKey="Jung M" first="Minwan" last="Jung">Minwan Jung</name>
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<author><name sortKey="Lee, Junsu" sort="Lee, Junsu" uniqKey="Lee J" first="Junsu" last="Lee">Junsu Lee</name>
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<author><name sortKey="Koo, Joonhoi" sort="Koo, Joonhoi" uniqKey="Koo J" first="Joonhoi" last="Koo">Joonhoi Koo</name>
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<author><name sortKey="Park, Jaehyun" sort="Park, Jaehyun" uniqKey="Park J" first="Jaehyun" last="Park">Jaehyun Park</name>
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<author><name sortKey="Song, Yong Won" sort="Song, Yong Won" uniqKey="Song Y" first="Yong-Won" last="Song">Yong-Won Song</name>
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<author><name sortKey="Lee, Kwanil" sort="Lee, Kwanil" uniqKey="Lee K" first="Kwanil" last="Lee">Kwanil Lee</name>
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<author><name sortKey="Lee, Ju Han" sort="Lee, Ju Han" uniqKey="Lee J" first="Ju Han" last="Lee">Ju Han Lee</name>
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<front><div type="abstract" xml:lang="en">We experimentally demonstrate a femtosecond mode-locked, all-fiberized laser that operates in the 2 μm region and that incorporates a saturable absorber based on a bulk-structured bismuth telluride (Bi(2)Te(3)) topological insulator (TI). Our fiberized saturable absorber was prepared by depositing a mechanically exfoliated, ~30 μm-thick Bi(2)Te(3) TI layer on a side-polished optical fiber platform. The bulk crystalline structure of the prepared Bi(2)Te(3) layer was confirmed by Raman and X-ray photoelectron spectroscopy measurements. The modulation depth of the prepared saturable absorber was measured to be ~20.6%. Using the saturable absorber, it is shown that stable, ultrafast pulses with a temporal width of ~795 fs could readily be generated at a wavelength of 1935 nm from a thulium/holmium co-doped fiber ring cavity. This experimental demonstration confirms that bulk structured, TI-based saturable absorbers can readily be used as an ultra-fast mode-locker for 2 μm lasers.</div>
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<Abstract><AbstractText>We experimentally demonstrate a femtosecond mode-locked, all-fiberized laser that operates in the 2 μm region and that incorporates a saturable absorber based on a bulk-structured bismuth telluride (Bi(2)Te(3)) topological insulator (TI). Our fiberized saturable absorber was prepared by depositing a mechanically exfoliated, ~30 μm-thick Bi(2)Te(3) TI layer on a side-polished optical fiber platform. The bulk crystalline structure of the prepared Bi(2)Te(3) layer was confirmed by Raman and X-ray photoelectron spectroscopy measurements. The modulation depth of the prepared saturable absorber was measured to be ~20.6%. Using the saturable absorber, it is shown that stable, ultrafast pulses with a temporal width of ~795 fs could readily be generated at a wavelength of 1935 nm from a thulium/holmium co-doped fiber ring cavity. This experimental demonstration confirms that bulk structured, TI-based saturable absorbers can readily be used as an ultra-fast mode-locker for 2 μm lasers.</AbstractText>
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