Through violation of an Einstein-Podolski-Rosen criterion by 988σ, we show the presence of entanglement after the medium. Using a transmission matrix approach, we perform wave-front correction in the classical domain using an intense classical beam as a beacon to compensate for the disturbances suffered by a copropagating beam of entangled photons. Here, we demonstrate a wavefront shaping approach to transmit high-dimensional spatially entangled photon pairs through scattering media. However, the presence of optical disorder such as atmospheric turbulence or biological tissue perturbs quantum state propagation and hinders their practical use. In particular, they enable quantum communications with higher information capacities or enhanced imaging protocols. High-dimensional entangled quantum states improve the performance of quantum technologies compared to qubit-based approaches.
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