We theoretically study the temperature dependence of the excitonic spectra of monolayer transitionmetal dichaleogenides using the O'Donnell equation, Eg(T) = Eg(0) - S〈hω〉[coth(〈hω〉/2kBT- 1)]. We develop ...We theoretically study the temperature dependence of the excitonic spectra of monolayer transitionmetal dichaleogenides using the O'Donnell equation, Eg(T) = Eg(0) - S〈hω〉[coth(〈hω〉/2kBT- 1)]. We develop a theoretical model for the quantitative estimation of the Huang-Rhys factor S and averagephonon energy (hω) based on exciton coupling with longitudinal optical and acoustic phonons in the Frohlich and deformation potential mechanisms, respectively. We present reasonable explanations for the fitted values of the Huang-Rhys factor and average phonon energy adopted in experiments. Com- parison with experimental results reveals that the temperature dependence of the peak position in the excitonic spectra can be well reproduced by modulating the polarization parameter and deformation potential constant.展开更多
基金This work was supported by the National Natural Science Foundation of China (Grant No. 11674241) and Young Core Instructor of Peiyang (Crant No. 11303267).
文摘We theoretically study the temperature dependence of the excitonic spectra of monolayer transitionmetal dichaleogenides using the O'Donnell equation, Eg(T) = Eg(0) - S〈hω〉[coth(〈hω〉/2kBT- 1)]. We develop a theoretical model for the quantitative estimation of the Huang-Rhys factor S and averagephonon energy (hω) based on exciton coupling with longitudinal optical and acoustic phonons in the Frohlich and deformation potential mechanisms, respectively. We present reasonable explanations for the fitted values of the Huang-Rhys factor and average phonon energy adopted in experiments. Com- parison with experimental results reveals that the temperature dependence of the peak position in the excitonic spectra can be well reproduced by modulating the polarization parameter and deformation potential constant.