Additional excitonic features and momentum-dark states in ReS2

Abstract

Unidirectional in-plane structural anisotropy in Rhenium-based transition metal dichalcogenides (TMDs) introduces a new class of 2-D materials, exhibiting anisotropic optical properties. In this work, we perform temperature dependent, polarization-resolved photoluminescence and reflectance measurements on several-layer ReS2. We discover two additional excitonic resonances (X3 and X4), which can be attributed to splitting of spin degenerate states. Strong in-plane oscillator strength of exciton species X1 and X2 are accompanied by weaker counterparts X3 and X4 with similar polarization orientations. The in-plane anisotropic dielectric function has been obtained for ReS2 which is essential for engineering light matter coupling for polarization sensitive optoelectronic devices. Furthermore, our temperature dependent study revealed the existence of low-lying momentum-forbidden dark states causing an anomalous PL intensity variation at 30 K, which has been elucidated using a rate equation model involving phonon scattering from these states. Our findings of the additional excitonic features and the momentum-dark states can shed light on the true nature of the electronic band structure of ReS2.