Optimal two-qubit quantum circuits using exchange interactions

Abstract

The Heisenberg exchange interaction is a natural method to implement non-local (i.e., multi-qubit) quantum gates in quantum information processing. We consider quantum circuits comprising of (SWAP)α gates, which are realized through the exchange interaction, and single-qubit gates. A universal two-qubit quantum circuit is constructed from only three (SWAP)α gates and six single-qubit gates. We further show that three (SWAP)α gates are not only sufficient, but necessary. Since six single-qubit gates are known to be necessary, our universal two-qubit circuit is optimal in terms of the number of both (SWAP)α and single-qubit gates.

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