Researchers from Columbia University, the University of Chicago, the University of Vienna in Austria, Politecnico di Milano in Italy, and Universita Degli Studi Dell’ Aquila in Italy have created a device that can generate photon pairs more efficiently than previous methods while being less prone to error. To create the device, the researchers used thin crystals of a van der Waals semiconducting transition metal called molybdenum disulfide. Then, they layered six of these crystal pieces into a stack, with each piece rotated 180 degrees relative to the crystal slabs above and below. As light travels through this stack, a phenomenon called quasi-phase-matching manipulates properties of the light, enabling the creation of paired photons. "We believe this breakthrough will establish van der Waals materials as the core of next-generation nonlinear and quantum photonic architectures,” said James Schuck, one of the scientists involved in this study.
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