Optimization of Thermal Quantum Entanglement and Quantum Teleportation Fidelity in Two-Qubit Graphene Lattices Under Polarized Electromagnetic Waves
摘要
Graphene networks are a privileged platform for investigating quantum information processes due to their unique electronic structure and the unconventional diffusion behavior of electrons near Dirac points. In this work, we examine the impact of an external electromagnetic field on quantum teleportation and on the degree of thermal entanglement of two identical qubits in the ground state of a graphene network. These qubits are modeled based on the electronic states localized near the Dirac points (K and