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Strong reduction of exciton-phonon coupling in high crystalline quality single-wall carbon nanotubes: a new insight into broadening mechanisms and exciton localization

Carbon nanotubes are quantum sources whose emission can be tuned at telecommunication wavelengths by choosing the diameter appropriately. Most applications require the smallest possible linewidth. Therefore, the study of the underlying dephasing mechanisms is of utmost interest. Here, we report on the low-temperature photoluminescence of high crystalline quality individual single-wall carbon nanotubes synthesized by laser ablation (L-SWNTs) and emitting at telecommunication wavelengths. A thorough statistical analysis of their emission spectra reveals a typical linewidth one order of magnitude narrower than that of most samples reported in the literature. The narrowing of the PL line of L-SWNTs is due to a weaker effective exciton-phonon coupling subsequent to a weaker localization of the exciton. These results suggest that exciton localization in SWNTs not only arises from interfacial effects, but that the intrinsic crystalline quality of the SWNT plays an important role.

preprint2015arXivOpen access
V. ArdizzoneY. ChassagneuxF. ViallaG. DelportC. DelcampN. BelabasE. DeleportePh. RoussignolI. Robert-PhilipC. VoisinJ. S. Lauret
cond-mat.mes-hall
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Open access11 authors1 topic
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V. ArdizzoneY. ChassagneuxF. ViallaG. DelportC. DelcampN. BelabasE. DeleportePh. RoussignolI. Robert-PhilipC. VoisinJ. S. Lauret

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