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Idealised EPR states from non-phase matched parametric down conversion

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arxiv 1907.09888 v1 pith:EPH3N2OD submitted 2019-07-23 quant-ph

Idealised EPR states from non-phase matched parametric down conversion

classification quant-ph
keywords entanglementquantumconversiondownentangledhighnon-linearparametric
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Entanglement of high dimensional states is becoming increasingly important for quantum communication and computing. The most common source of entangled photons is spontaneous parametric down conversion (SPDC), where the degree of frequency and momentum entanglement is determined by the non-linear interaction volume. Here we show that by reducing the length of a highly non-linear material to the micrometer scale it is possible to relax the longitudinal phase matching condition and reach record levels of transverse wavevector entanglement. From a micro-sized layer of lithium niobate we estimate the number of entangled angular modes to be over 1200. The entanglement is measured both directly using correlation measurements and indirectly using stimulated emission tomography. The high entanglement of the state generated can be used to massively increase the quantum information capacity of photons, but it also opens up the possibility to improve the resolution of many quantum imaging techniques.

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