English

Phase spaces that cannot be cloned in classical mechanics

Mathematical Physics 2023-10-09 v3 math.MP Symplectic Geometry Classical Physics Quantum Physics

Abstract

The quantum no cloning theorem is an essential result in quantum information theory. Following this idea, we give a physically natural definition of cloning in the context of classical mechanics using symplectic geometry, building on work of Fenyes. We observe, following Fenyes, any system with phase space (R2N,dxidyi)(\mathbb{R}^{2N}, dx_i\wedge dy_i) can be cloned in our definition. However, we show that if (M,ω)(M,\omega) can be cloned in our definition, then MM must be contractible. For instance, this shows the simple pendulum cannot be cloned in Hamiltonian mechanics. We further formulate a robust notion of approximate cloning, and show that if (M,ω)(M, \omega) can be approximately cloned, then MM is contractible. We give interpretations of our results and in some special cases reconcile our no cloning theorems with the general experience that classical information is clonable. Finally we point to new directions of research, including a connection of our result with the classical measurement problem.

Keywords

Cite

@article{arxiv.2303.00255,
  title  = {Phase spaces that cannot be cloned in classical mechanics},
  author = {Yuan Yao},
  journal= {arXiv preprint arXiv:2303.00255},
  year   = {2023}
}

Comments

Added some sections. final version

R2 v1 2026-06-28T08:53:09.167Z