Tailoring photostriction via superlattices engineering
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We report systematic first-principles investigation of light-induced mechanical deformations in monodomain (PbTiO$_{3}$)$_{n}$/(SrTiO$_{3}$)$_{n}$ superlattices ($n=1-5$). We reveal that photostriction in these heterostructures quantitatively and qualitatively depends on the chemical period $n$. Specifically, we show that by changing the chemical period, we can induce $\textit {positive}$ or $\textit {negative}$ photostriction. We also present a simple analytical model to account for the calculated deformations. Our findings indicate that superlattices architectures may be key to design novel optomechanical applications.
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