A direct comparison of single-walled carbon nanotubes and quantum-wells based subpicosecond saturable absorbers for all optical signal regeneration at 1.55 μm

Nong, Hanond; Gicquel, M.; Bramerie, Laurent; Perrin, Mathieu; Grillot, Frédéric; Levallois, Christophe; Maalouf, Azar; Loualiche, Slimane

doi:10.1063/1.3309712

Cited by 12 publications

(22 citation statements)

References 20 publications

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“…This simple process holds to obtain a dried film of SWCNT in bundles, which has already been structurally analyzed by Raman spectroscopy and scanning tunneling microscopy [11] For M-SWCNT way, 10 mg of pristine SWCNT powder was added to 20 ml of 2%-sodium-cholate water solution, then sonicated for 1 h, and finally centrifuged at 25,000× g for 1 h; the upper suspension layer was dropped on a glass substrate, leading to a few microns-thick SWCNT film. We already reported the linear absorption spectra of both samples in [10], which indicate that the SWCNT first excitonic transition energies are suitable for 1,550-nm-window photonics applications.…”

Section: Methodsmentioning

confidence: 96%

“…We first directly compare SWCNT with MQW absorption nonlinearities, aiming at demonstrating the huge potential of SWCNT-based optical devices for saturable absorption applications as an easier-process and lower-cost efficient solution than conventional semiconductor MQW [10,11]. This work highlights the interest for future photonics to benefit from larger one-dimensional (1D) excitonic nonlinearities in SWCNT than 2D in MQW.…”

Section: Introductionmentioning

confidence: 99%

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Photonics based on carbon nanotubes

Gicquel-Guézo

Loualiche

et al. 2013

Nanoscale Res Lett

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Among direct-bandgap semiconducting nanomaterials, single-walled carbon nanotubes (SWCNT) exhibit strong quasi-one-dimensional excitonic optical properties, which confer them a great potential for their integration in future photonics devices as an alternative solution to conventional inorganic semiconductors. In this paper, we will highlight SWCNT optical properties for passive as well as active applications in future optical networking. For passive applications, we directly compare the efficiency and power consumption of saturable absorbers (SAs) based on SWCNT with SA based on conventional multiple quantum wells. For active applications, exceptional photoluminescence properties of SWCNT, such as excellent light-emission stabilities with temperature and excitation power, hold these nanometer-scale materials as prime candidates for future active photonics devices with superior performances.

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Section: Methodsmentioning

confidence: 96%

Section: Introductionmentioning

confidence: 99%

Photonics based on carbon nanotubes

Gicquel-Guézo

Loualiche

et al. 2013

Nanoscale Res Lett

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“…SWCNTs are considered as promising candidates for future optical and electronic devices such as field effect transistor, 1 gas sensors, 2,3 optical bolometer, 4 laser source, 5 and saturable absorber. 6 However, as shown previously, 3 the performances of these devices can be drastically affected by the chirality distribution.…”

mentioning

confidence: 94%

“…Films of CoMoCat SWCNTs and SWCNTs enriched in (6,5) chirality are considered. Classical methods like photoluminescence spectroscopy frequently give incomplete distribution.…”

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confidence: 99%

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Chirality distribution in single walled carbon nanotube films by spectroscopic ellipsometry

et al. 2013

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International audienceWe report an experimental technique that determines the chirality distribution in single wall carbonnanotube (SWCNT) films. Films of CoMoCat SWCNTs and SWCNTs enriched in (6,5) chiralityare considered. Classical methods like photoluminescence spectroscopy frequently give incompletedistribution. In this way, spectroscopic ellipsometry is used to determine the dielectric function ofSWCNT film. The chirality abundance obtained by analysing the ellipsometric data with a tightbinding model is compared with that deduced from photoluminescence excitation spectroscopy.We demonstrate that ellipsometry is an efficient tool for a complete and quantitative determinationof the chirality distribution and the metallic/semiconducting ratio

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Guided Photoluminescence from Integrated Carbon‐Nanotube‐Based Optical Waveguides

Bodiou

Guezo

et al. 2015

Advanced Materials

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Thin films and ridge waveguides based on large-diameter semiconducting single-wall carbon nanotubes (s-SWCNTs) dispersed in a polyfluorene derivative are fabricated and optically characterized. Ridge waveguides are designed with appropriate dimensions for single-mode propagation at 1550 nm. Using multimode ridge waveguides, guided s-SWCNT photoluminescence is demonstrated for the first time in the near-infrared telecommunications window.

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A direct comparison of single-walled carbon nanotubes and quantum-wells based subpicosecond saturable absorbers for all optical signal regeneration at 1.55 μm

Cited by 12 publications

References 20 publications

Photonics based on carbon nanotubes

Photonics based on carbon nanotubes

Chirality distribution in single walled carbon nanotube films by spectroscopic ellipsometry

Guided Photoluminescence from Integrated Carbon‐Nanotube‐Based Optical Waveguides

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