We establish an information-theoretic lower bound on the number of qubits /u1D45B required for a quantum representation of a turbulent state

THEORETICAL LOWER BOUND OF QUANTUM ENCODING FOR A TURBULENT FIELD Classical simulations of 3D turbulence are computationally demanding, with the required number of degrees of freedom scaling as Re9/ 4 · 2000

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Geometric encoding of turbulence for end-to-end quantum simulation

quant-ph · 2025-08-07 · unverdicted · novelty 6.0

A geometric encoding method using hyperplane self-similarity and Hopf fibration maps vortex structures to quantum observables, allowing 30-qubit simulation of Re=35,000 turbulence with logarithmic scaling.

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Geometric encoding of turbulence for end-to-end quantum simulation quant-ph · 2025-08-07 · unverdicted · none · ref 67
A geometric encoding method using hyperplane self-similarity and Hopf fibration maps vortex structures to quantum observables, allowing 30-qubit simulation of Re=35,000 turbulence with logarithmic scaling.

We establish an information-theoretic lower bound on the number of qubits /u1D45B required for a quantum representation of a turbulent state

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