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arxiv: 1601.04896 · v2 · pith:IMILMQA5new · submitted 2016-01-19 · 🪐 quant-ph · cs.CR· math-ph· math.MP

Quantum Simulation of the Factorization Problem

classification 🪐 quant-ph cs.CRmath-phmath.MP
keywords functionquantumproblemsimulatorsystemalonecomputerfactorization
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Feynman's prescription for a quantum simulator was to find a hamitonian for a system that could serve as a computer. P\'olya and Hilbert conjecture was to demonstrate Riemann's hypothesis through the spectral decomposition of hermitian operators. Here we study the problem of decomposing a number into its prime factors, $N=xy$, using such a simulator. First, we derive the hamiltonian of the physical system that simulate a new arithmetic function, formulated for the factorization problem, that represents the energy of the computer. This function rests alone on the primes below $\sqrt N$. We exactly solve the spectrum of the quantum system without resorting to any external ad-hoc conditions, also showing that it obtains, for $x\ll \sqrt{N}$, a prediction of the prime counting function that is almost identical to Riemann's $R(x)$ function. It has no counterpart in analytic number theory and its derivation is a consequence of the quantum theory of the simulator alone.

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