An Analog Analogue of a Digital Quantum Computation

Abstract

We solve a problem, which while not fitting into the usual paradigm, can be viewed as a quantum computation. Suppose we are given a quantum system described by an N dimensional Hilbert space with a Hamiltonian of the form E |w >< w| where | w> is an unknown (normalized) state. We show how to discover | w > by adding a Hamiltonian (independent of | w >) and evolving for a time proportional to N1/2/E. We show that this time is optimally short. This process is an analog analogue to Grover's algorithm, a computation on a conventional (!) quantum computer which locates a marked item from an unsorted list of N items in a number of steps proportional to N1/2.

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