Strain-Enabled Giant Second-Order Susceptibility in Monolayer WSe2

Abstract

Monolayer WSe2 (ML WSe2) exhibits a high second-harmonic generation (SHG) efficiency under single 1-photon (1-p) or 2-photon (2-p) resonant excitation conditions due to enhanced second-order susceptibility compared with off-resonance excitation states lin2021narrow,wang2015giant. Here, we propose a novel strain engineering approach to dramatically boost the in-plane second-order nonlinear susceptibility (yyy ) of ML WSe2 by tuning the biaxial strain to shift two K-valley excitons (the A-exciton and a high-lying exciton (HX)) into double resonance. We first identify the A-exciton and HX from the 2D Mott-Wannier model for pristine ML WSe2 and calculate the yyy under either 1-p or 2-p resonance excitations, and observe a 39-fold yyy enhancement arising from the 2-p HX resonance state compared with the A-exciton case. By applying a small uniform biaxial strain (0.16\%), we observe an exciton double resonance state (EHX = 2EA, EHX and EA are the exciton absorption energies), which yields up to an additional 52-fold enhancement in yyy compared to the 2-p HX resonance state, indicating an overall 2000-fold enhancement compared to the single 2-p A-exciton resonance state reported in Ref wang2015giant. Further exploration of the strain-engineered exciton states (with biaxial strain around 0.16\%) reveals that double resonance also occurs at other wavevectors near the K valley, leading to other enhancement states in yyy, confirming that strain engineering is an effective approach for enhancing yyy. Our findings suggest new avenues for strain engineering the optical properties of 2D materials for novel nonlinear optoelectronic applications.

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