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Second-scale rotational coherence and dipolar interactions in a gas of ultracold polar molecules - Nature Physics

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Second-scale rotational coherence and dipolar interactions in a gas of ultracold polar molecules - Nature Physics

Ultracold polar molecules combine a rich structure of long-lived internal states with access to controllable long-range anisotropic dipole–dipole interactions. In particular, the rotational states of polar molecules confined in optical tweezers or optical lattices may be used to encode interacting qubits for quantum computation or pseudo-spins for simulating quantum magnetism. As with all quantum platforms, the engineering of robust coherent superpositions of states is vital.

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Second-scale rotational coherence and dipolar interactions in a gas of ultracold polar molecules - Nature Physics

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Second-scale rotational coherence and dipolar interactions in a gas of ultracold polar molecules - Nature Physics

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