Symmetry-dependent exciton-phonon coupling in 2D and bulk MoS2 observed by resonance Raman scattering

This work describes a resonance Raman study performed on samples with one, two, and three layers (1L, 2L, 3L), and bulk MoS2, using more than 30 different laser excitation lines covering the visible range, and focusing on the intensity of the two most pronounced features of the Raman scattering spec...

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Veröffentlicht in:	Physical review letters 2015-04, Vol.114 (13), p.136403-136403
Hauptverfasser:	Carvalho, Bruno R, Malard, Leandro M, Alves, Juliana M, Fantini, Cristiano, Pimenta, Marcos A
Format:	Artikel
Sprache:	eng
Schlagworte:	Band spectra Bands Excitation Excitons Lasers Molybdenum disulfide Raman scattering Resonance scattering
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container_title	Physical review letters
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creator	Carvalho, Bruno R Malard, Leandro M Alves, Juliana M Fantini, Cristiano Pimenta, Marcos A
description	This work describes a resonance Raman study performed on samples with one, two, and three layers (1L, 2L, 3L), and bulk MoS2, using more than 30 different laser excitation lines covering the visible range, and focusing on the intensity of the two most pronounced features of the Raman scattering spectrum of MoS2 (E2g(1) and A1g bands). The Raman excitation profiles of these bands were obtained experimentally, and it is found that the A1g feature is enhanced when the excitation laser is in resonance with A and B excitons of MoS2, while the E2g1 feature is shown to be enhanced when the excitation laser is close to 2.7 eV. We show from the symmetry analysis of the exciton-phonon interaction that the mode responsible for the E2g(1) resonance is identified as the high energy C exciton recently predicted [D. Y. Qiu, F. H. da Jornada, and S. G. Louie, Phys. Rev. Lett. 111, 216805 (2013)].
doi_str_mv	10.1103/PhysRevLett.114.136403
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The Raman excitation profiles of these bands were obtained experimentally, and it is found that the A1g feature is enhanced when the excitation laser is in resonance with A and B excitons of MoS2, while the E2g1 feature is shown to be enhanced when the excitation laser is close to 2.7 eV. We show from the symmetry analysis of the exciton-phonon interaction that the mode responsible for the E2g(1) resonance is identified as the high energy C exciton recently predicted [D. Y. Qiu, F. H. da Jornada, and S. G. Louie, Phys. Rev. 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The Raman excitation profiles of these bands were obtained experimentally, and it is found that the A1g feature is enhanced when the excitation laser is in resonance with A and B excitons of MoS2, while the E2g1 feature is shown to be enhanced when the excitation laser is close to 2.7 eV. We show from the symmetry analysis of the exciton-phonon interaction that the mode responsible for the E2g(1) resonance is identified as the high energy C exciton recently predicted [D. Y. Qiu, F. H. da Jornada, and S. G. Louie, Phys. Rev. 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The Raman excitation profiles of these bands were obtained experimentally, and it is found that the A1g feature is enhanced when the excitation laser is in resonance with A and B excitons of MoS2, while the E2g1 feature is shown to be enhanced when the excitation laser is close to 2.7 eV. We show from the symmetry analysis of the exciton-phonon interaction that the mode responsible for the E2g(1) resonance is identified as the high energy C exciton recently predicted [D. Y. Qiu, F. H. da Jornada, and S. G. Louie, Phys. Rev. Lett. 111, 216805 (2013)].</abstract><cop>United States</cop><pmid>25884130</pmid><doi>10.1103/PhysRevLett.114.136403</doi><tpages>1</tpages></addata></record>
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subjects	Band spectra Bands Excitation Excitons Lasers Molybdenum disulfide Raman scattering Resonance scattering
title	Symmetry-dependent exciton-phonon coupling in 2D and bulk MoS2 observed by resonance Raman scattering
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