Optimizing Quantum Teleportation and Dense Coding via Mixed Noise Under Non-Markovian Approximation

Physicists are attracted to open-system dynamics, how quantum systems evolve, and how they can be protected from unnecessary environmental noise, especially when environmental memory effects are non-negligible, as with non-Markovian approximations. There are several methods to solve the master equation of non-Markovian cases and we obtain the solutions of the quantum-state-diffusion equation for a two-qubit system using the perturbation method under the influence of various types of environmental noise, including relaxation noise, dephasing noise and their mixture. It was found that by inducing dephasing noise into the relaxation process strengthens the correlation between qubits by restoring the entanglement lost in the environment, thereby making it possible to optimize quantum teleportation fidelity and dense coding capacity via mixed noise under non-Markovian approximation.