English

An Exact Five-Step Method for Classicalizing N-level Quantum Systems: Application to Quantum Entanglement Dynamics

Quantum Physics 2026-04-06 v1

Abstract

In this manuscript, we present a general and exact method for classicalizing the dynamics of any NN-level quantum system, transforming quantum evolution into a classical-like framework using the geometry of complex projective spaces CPN1\mathbb{CP}^{N-1}. The method can be expressed as five-step algorithmic procedure to derive a classical Hamiltonian and a symplectic structure for the Poisson brackets, yielding N1N-1 Hamilton's equations that precisely replicate the quantum dynamics, including complex phenomena like entanglement. We demonstrate the method's efficacy by classicalizing two interacting qubits in CP3\mathbb{CP}^3, exactly reproducing quantum observables such as quantum probabilities, quaternionic population differences and the concurrence, capturing entanglement dynamics via a classical analog.

Keywords

Cite

@article{arxiv.2506.23684,
  title  = {An Exact Five-Step Method for Classicalizing N-level Quantum Systems: Application to Quantum Entanglement Dynamics},
  author = {Daniel Martínez-Gil and Pedro Bargueño and Salvador Miret-Artés},
  journal= {arXiv preprint arXiv:2506.23684},
  year   = {2026}
}
R2 v1 2026-07-01T03:39:14.310Z