Fractional thermal transport and twisted light induced by an optical two-wave mixing in single-wall carbon nanotubes

M. A. Hernández-Acosta; H. Martines-Arano; L. Soto-Ruvalcaba; C. L. Martínez-González; H. Martínez-Gutiérrez; C. Torres-Torres

doi:10.1016/j.ijthermalsci.2019.106136

Fractional thermal transport and twisted light induced by an optical two-wave mixing in single-wall carbon nanotubes

M. A. Hernández-Acosta, H. Martines-Arano, L. Soto-Ruvalcaba, C. L. Martínez-González, H. Martínez-Gutiérrez, C. Torres-Torres

Research output: Contribution to journal › Article › peer-review

14 Scopus citations

Abstract

Photothermally-activated energy transfer effects were analyzed by a vectorial two-wave mixing technique. Single-wall carbon nanotubes in thin film form were experimentally evaluated by nanosecond pulses at 532 nm wavelength. Significant changes in the heat conduction derived by equivalent incident energy from single-beam and two-wave optical interactions in the sample were promoted by different participation of quantum and nonlinear optical phenomena. Fractional analysis was carried out for studying the thermal behavior exhibited by the sample in a nonlinear regime. The fractional dynamics in the thermal transport was employed for describing the interferometric effects that correspond to optical phase-changes induced in nanoscale systems. This report can be a base for future research related to twisted light and photothermally-controlled functions.

Original language	English
Article number	106136
Journal	International Journal of Thermal Sciences
Volume	147
DOIs	https://doi.org/10.1016/j.ijthermalsci.2019.106136
State	Published - Jan 2020

Keywords

Fractional calculus
Nonlinear optics
Two-wave mixing

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10.1016/j.ijthermalsci.2019.106136

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Hernández-Acosta, M. A., Martines-Arano, H., Soto-Ruvalcaba, L., Martínez-González, C. L., Martínez-Gutiérrez, H., & Torres-Torres, C. (2020). Fractional thermal transport and twisted light induced by an optical two-wave mixing in single-wall carbon nanotubes. International Journal of Thermal Sciences, 147, Article 106136. https://doi.org/10.1016/j.ijthermalsci.2019.106136

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abstract = "Photothermally-activated energy transfer effects were analyzed by a vectorial two-wave mixing technique. Single-wall carbon nanotubes in thin film form were experimentally evaluated by nanosecond pulses at 532 nm wavelength. Significant changes in the heat conduction derived by equivalent incident energy from single-beam and two-wave optical interactions in the sample were promoted by different participation of quantum and nonlinear optical phenomena. Fractional analysis was carried out for studying the thermal behavior exhibited by the sample in a nonlinear regime. The fractional dynamics in the thermal transport was employed for describing the interferometric effects that correspond to optical phase-changes induced in nanoscale systems. This report can be a base for future research related to twisted light and photothermally-controlled functions.",

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AU - Hernández-Acosta, M. A.

AU - Martines-Arano, H.

AU - Soto-Ruvalcaba, L.

AU - Martínez-González, C. L.

AU - Martínez-Gutiérrez, H.

AU - Torres-Torres, C.

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AB - Photothermally-activated energy transfer effects were analyzed by a vectorial two-wave mixing technique. Single-wall carbon nanotubes in thin film form were experimentally evaluated by nanosecond pulses at 532 nm wavelength. Significant changes in the heat conduction derived by equivalent incident energy from single-beam and two-wave optical interactions in the sample were promoted by different participation of quantum and nonlinear optical phenomena. Fractional analysis was carried out for studying the thermal behavior exhibited by the sample in a nonlinear regime. The fractional dynamics in the thermal transport was employed for describing the interferometric effects that correspond to optical phase-changes induced in nanoscale systems. This report can be a base for future research related to twisted light and photothermally-controlled functions.

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Fractional thermal transport and twisted light induced by an optical two-wave mixing in single-wall carbon nanotubes

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Keywords

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