AI Article Synopsis
- Proposals for quantum computing have mostly focused on diatomic molecules, which require strong external electric fields due to their second-order Stark effect.
- Using polar symmetric top molecules instead allows for a first-order Stark effect, enabling effective dipole moments that are less sensitive to field strength, thus requiring lower fields for operations.
- These molecules also align well with NMR technologies that can enhance logic gate operations, and there is a broader chemical variety available for auxiliary qubits in different states.
Article Abstract
Proposals for quantum computing using rotational states of polar molecules as qubits have previously considered only diatomic molecules. For these the Stark effect is second-order, so a sizable external electric field is required to produce the requisite dipole moments in the laboratory frame. Here we consider use of polar symmetric top molecules. These offer advantages resulting from a first-order Stark effect, which renders the effective dipole moments nearly independent of the field strength. That permits use of much lower external field strengths for addressing sites. Moreover, for a particular choice of qubits, the electric dipole interactions become isomorphous with NMR systems for which many techniques enhancing logic gate operations have been developed. Also inviting is the wider chemical scope, since many symmetric top organic molecules provide options for auxiliary storage qubits in spin and hyperfine structure or in internal rotation states.
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| http://dx.doi.org/10.1063/1.3649949 | DOI Listing |
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