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Quantum Computation with Rotational States of Nonpolar Ionic Molecules

We propose a quantum computer architecture which is robust against decoherence and scalable. As a qubit, we adopt rotational states of a nonpolar ionic molecule trapped in an ion-trap. It is revealed that the rotational-state qubits are much more immune to decoherence than the conventional electronic-state qubits of atomic ions. A complete method set for state preparation, single-qubit gate, controlled-NOT gate, and qubit-readout suitable for the rotational-state qubits is provided. Since the ionic molecules can be transported in an array of ion traps, the rotational-state qubits are expected to be a promising candidate to build a large-scale quantum computer.

preprint2015arXivOpen access
Sang Jae YunChang Hee Nam
quant-ph
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Open access2 authors1 topic
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Sang Jae YunChang Hee Nam

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