A Universal Adiabatic Quantum Query Algorithm
نویسندگان
چکیده
Quantum query complexity is known to be characterized by the so-called quantum adversary bound. While this result has been proved in the standard discretetime model of quantum computation, it also holds for continuous-time (or Hamiltonianbased) quantum computation, due to a known equivalence between these two query complexity models. In this work, we revisit this result by providing a direct proof in the continuous-time model. One originality of our proof is that it draws new connections between the adversary bound, a modern technique of theoretical computer science, and early theorems of quantum mechanics. Indeed, the proof of the lower bound is based on Ehrenfest’s theorem, while the upper bound relies on the adiabatic theorem, as it goes by constructing a universal adiabatic quantum query algorithm. Another originality is that we use for the first time in the context of quantum computation a version of the adiabatic theorem that does not require a spectral gap.
منابع مشابه
Topics in quantum algorithms - Adiabatic Algorithm , Quantum Money , and Bomb Query Complexity
by Han-Hsuan Lin Submitted to the Department of Physics on May 22, 2015, in partial fulfillment of the requirements for the degree of Ph.D. in Physics In this thesis, I present three results on quantum algorithms and their complexity. The first one is a numerical study on the quantum adiabatic algorithm( QAA) . We tested the performance of the QAA on random instances of MAX 2-SAT on 20 qubits a...
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