Fubini–Study geometry, dynamics, and entanglement in KSEA-coupled two-spin system under magnetic field: Implications for quantum teleportation | Synapse
March 3, 2026
Fubini–Study geometry, dynamics, and entanglement in KSEA-coupled two-spin system under magnetic field: Implications for quantum teleportation
Key Points
Entanglement influences the dynamics of the two-spin system within a magnetic field, enhancing quantum teleportation capabilities.
The study shows a clear connection between Fubini-Study geometry and the efficiency of quantum teleportation processes.
Employing quantum dynamics theory, the model illustrates how external magnetic fields affect entanglement preservation.
The findings highlight the potential of improved quantum communication systems based on observed dynamics and entanglement properties.