Abstract
We explore the two quantum-wells correlations in two microcavities linked by a waveguide and leaking its photons to the external environment. Each microcavity contains quantum well (QW) and filled by a linear optical medium. We examine the effects of the physical parameters on the generation and robustness of the Bures-norm entanglement and the trace-norm measurement-induced non-locality correlation. The generations and the robustness of the Bures and trace-distance correlations depend crucially on the cavity-QW and fiber cavity couplings as well as on the optical linear medium density. The optical susceptibility, the spontaneous emission and the microcavity dissipation rates, in addition to the couplings of cavity-QW and the fiber-cavity control the regularity, amplitudes, and frequencies of the Bures and trace-distance correlations.