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Article Abstract
Nonlinear optical (NLO) materials play a pivotal role in controlling laser characteristics, including phase and frequency, making them essential for optoelectronic applications. This study presents a quantum chemical investigation into the effects of copper doping on the NLO properties of small gold clusters. Using density functional theory with the CAM-B3LYP/LanL2DZ level of theory, we examined both pure (Au, where 8 ≤ ≤ 10) and copper-doped (AuCu) gold clusters. To the best of our knowledge, no theoretical studies have been reported on the nonlinear optical properties of pure and Cu-doped clusters. Copper incorporation leads to a marked reduction in the HOMO-LUMO energy gap from 4.77 eV down to 1.59 indicating enhanced NLO response. The dynamic NLO properties were computed at a standard Nd:YAG laser wavelength (1064 nm; ω = 0.0428 au). Among the doped clusters, AuCu exhibited the highest first hyperpolarizability β, reaching 5.27 × 10 au. The second hyperpolarizability γ peaked at 3.89 × 10 au for AuCu, while the third-order response γ was highest for AuCu at 1.03 × 10 au. These results highlight copper-doped gold clusters as promising candidates for the development of high-performance NLO materials, with potential applications in next-generation electronic and photonic devices.
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