Quantum collective model

The Quantum Collective Model describes how groups of particles—like electrons or atoms—behave together when influenced by quantum mechanics. Instead of acting as individual, separate entities, these particles can become interconnected through a property called entanglement, leading to collective behaviors such as synchronized oscillations or shared states. Think of it like a team working seamlessly, where the group's overall behavior emerges from their interactions. This model helps explain phenomena in materials like superconductors and quantum fluids, where collective quantum effects give rise to unique properties not seen in isolated particles.