Coherence of Symmetry-Protected Rotational Qubits in Cold Polyatomic Molecules

Coherence of Symmetry-Protected Rotational Qubits in Cold Polyatomic Molecules

Polar polyatomic molecules provide an ideal but largely unexplored platform to encode qubits in rotational states. Here, we trap cold (100-600 mK) formaldehyde (H\(_2\)CO) inside an electric box and perform a Ramsey-type experiment to observe long-lived (~100 \(\mu\)s) coherences between symmetry-pr...

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Veröffentlicht in:arXiv.org 2024-12
Hauptverfasser: Löw, Maximilian, Ibrügger, Martin, Rempe, Gerhard, Zeppenfeld, Martin
Format: Artikel
Sprache:eng
Schlagworte:
Cold traps
Electric fields
Polyatomic molecules
Qubits (quantum computing)
Rotational states
Symmetry
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Zusammenfassung:Polar polyatomic molecules provide an ideal but largely unexplored platform to encode qubits in rotational states. Here, we trap cold (100-600 mK) formaldehyde (H\(_2\)CO) inside an electric box and perform a Ramsey-type experiment to observe long-lived (~100 \(\mu\)s) coherences between symmetry-protected molecular states with opposite rotation but identical orientation, representing a quasi-hidden molecular degree of freedom. As a result, the observed qubit is insensitive to the magnitude of an external electric field, and depends only weakly on magnetic fields. Our findings provide a basis for future quantum and precision experiments with trapped cold molecules.
ISSN:2331-8422