This technology is a structured receiver for entanglement-assisted communication and sensing that relies only on off-the-shelf components. This innovation may enable high-rate communication in the presence of noise and high precision quantum radar detection. Upon receiving the return of the signal, the receiver first performs a heterodyne or homodyne detection on the return. Next, phase shift and beam splitting are performed on the idlers. Finally, homodyne or photon counting is performed on the idlers. Background: Entanglement-assisted protocols entangle an initial signal with an ancilla for entanglement-assistance, which is jointly measured with the received signal to boost the information extraction performance. Focus is given to microwave or optical sensing and communication. The long-standing problem in designing receivers and protocols that can operate with noise is solved by converting the quantum problem into a semi-classical one. By combining a conversion module with a standard optimal coherent-state receiver, optimal receiver design is achieved for various applications. For example, a design for quantum illumination target detection only relies on off-the-shelf components of heterodyne detection, quadrature displacement, and photon detection. Applications:
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