Role of Interlayer Coupling in the Second Harmonic Generation of Bilayer Transition-metal Dichalcogenides
Abstract
Little is known about the role of weak interlayer coupling in the second harmonic generation (SHG) effects of two-dimensional van der Waals (vdW) systems. In this article, taking homo-bilayer MoS2/MoS2 and hetero-bilayer MoS2/MoSe2 as typical examples, we have systemically investigated their SHG susceptibilities as a function of interlayer hopping strength using first-principles calculations. For the SHG at zero frequency limit of both MoS2/MoS2 and MoS2/MoSe2, although the increase of tint can increase the intensities of interlayer optical transitions (IOT), the increased band repulsion around G point can eventually decrease their SHG values; the larger the tint, the smaller the SHG response. For the SHG spectra of MoS2/MoSe2 in the low photon-energy region, opposite to the MoS2/MoS2, their peak values are very sensitive to the variable tint, due to the strong tint-dependent IOT dominating in the band edge; the larger the tint, the larger the SHG. For the SHG of MoS2/MoS2 in the high photon-energy region, comparing to the MoS2/MoSe2, their peak values will decrease in a much more noticeable way as the tint increases, due to the larger reduction of band nesting effect. Our study not only can successfully explain the puzzling experimental observations for the different SHG responses in different bilayer transition-metal dichalcogenides under variable tint, but also may provide a general understanding for designing controllable the SHG effects in the vdW systems.
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