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Article Abstract
Quantum photonics promises significant advances in secure communications, metrology, sensing, and information processing/computation. Single-photon sources are fundamental to this endeavor. However, the lack of high-quality single photon sources remains a significant obstacle. We present here a paradigm for the control of single photon emitters (SPEs) and single photon purity by integrating monolayer WS with the organic ferroelectric polymer poly(vinylidene fluoride--trifluoroethylene) (P(VDF-TrFE)). We demonstrate that the ferroelectric domains in the P(VDF-TrFE) film control the purity of single photon emission from the adjacent WS. By switching the ferroelectric polarization, we reversibly tune the single photon purity between the semiclassical and quantum light regimes, with single photon purities as high as 94%. This demonstrates a method for modulating and encoding quantum photonic information, complementing more complex approaches. This multidimensional heterostructure introduces an approach for control of quantum emitters by combining the nonvolatile ferroic properties of a ferroelectric with the radiative properties of the zero-dimensional atomic-scale emitters embedded in the two-dimensional WS semiconductor monolayer.
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