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arxiv: 2410.07661 · v2 · pith:K7BBT56Xnew · submitted 2024-10-10 · ❄️ cond-mat.mtrl-sci · cond-mat.mes-hall· physics.optics

Tunable second harmonic generation in 2D materials: comparison of different strategies

classification ❄️ cond-mat.mtrl-sci cond-mat.mes-hallphysics.optics
keywords nonlinearopticalexternalfieldmaterialconfigurationseffectsgeneration
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Nonlinear optical frequency conversion, where optical fields interact with a nonlinear medium to generate new frequencies, is a key phenomenon in modern photonic systems. However, a major challenge with these techniques lies in the difficulty of tuning the nonlinear electrical susceptibilities that drive such effects in a given material. As a result, dynamic control of optical nonlinearities has remained largely confined to research laboratories, limiting its practical use as a spectroscopic tool. In this work, we aim to advance the development of devices with tunable nonlinear responses by exploring two potential mechanisms for electrically manipulating second-order optical nonlinearity in two-dimensional materials. Specifically, we consider two configurations: in the first, the material does not inherently exhibit second-harmonic generation (SHG), but this response is induced by an external field; in the second, an external field induces doping in a material that already exhibits SHG, altering the intensity of the nonlinear signal. In this work, we have studied these two configurations using a real-time ab-initio approach under an out-of-plane external field and including the effects of doping-induced variations in the screened electron-electron interaction. We then discuss the limitations of current computational methods and compare our results with experimental measurements.

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