Distribution of high-dimensional orbital angular momentum entanglement over a 1 km few-mode fiber

High-dimensional entanglement has demonstrated its potential for increasing channel capacity and resistance to noise in quantum information processing. However, distributing it is a challenging task, imposing severe restrictions on its application. Here we report the first distribution of three-dimensional orbital angular momentum (OAM) entanglement via a 1-km-long few-mode optical fiber. Using an actively stabilizing phase precompensation technique, we successfully transport one photon of a three-dimensional OAM entangled photon pair through the fiber. The distributed OAM entangled state still shows a fidelity up to 71% with respect to the three-dimensional maximally entangled state (MES). In addition, we certify that the high-dimensional quantum entanglement survives the transportation by violating a generalized Bell inequality, obtaining a violation of similar to 3 standard deviations from the classical limit with I-3 = 2.12 +/- 0.04. The method we developed can be extended to a higher OAM dimension and larger distances in principle. Our results make a significant step towards futureOAM-based high-dimensional long-distance quantum communication. (C) 2020 Optical Society of America under the terms of the OSA Open Access Publishing Agreement