Jennifer L. Dodd scite author profile

How useful is a quantum dynamical operation for quantum information processing? Motivated by this question, we investigate several strength measures quantifying the resources intrinsic to a quantum operation. We develop a general theory of such strength measures, based on axiomatic considerations independent of state-based resources. The power of this theory is demonstrated with applications to quantum communication complexity, quantum computational complexity, and entanglement generation by unitary operations.

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Universal quantum computation and simulation using any entangling Hamiltonian and local unitaries

Dodd

et al. 2002

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Practical Scheme for Quantum Computation with Any Two-Qubit Entangling Gate

et al. 2002

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Which gates are universal for quantum computation? Although it is well known that certain gates on two-level quantum systems (qubits), such as the controlled-not, are universal when assisted by arbitrary one-qubit gates, it has only recently become clear precisely what class of two-qubit gates is universal in this sense. We present an elementary proof that any entangling two-qubit gate is universal for quantum computation, when assisted by one-qubit gates. A proof of this result for systems of arbitrary finite dimension has been provided by Brylinski and Brylinski; however, their proof relies on a long argument using advanced mathematics. In contrast, our proof provides a simple constructive procedure which is close to optimal and experimentally practical.

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Jennifer L. Dodd

Quantum dynamics as a physical resource

Universal quantum computation and simulation using any entangling Hamiltonian and local unitaries

Practical Scheme for Quantum Computation with Any Two-Qubit Entangling Gate

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