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Observation of Core-Excited Dipole-Bound States

Yue-Rou Zhang, Dao-Fu Yuan, Lai‐Sheng Wang

2022The Journal of Physical Chemistry Letters16 citationsDOIOpen Access PDF

Abstract

Polar molecules can bind an electron in a diffuse orbital due to the charge-dipole interaction. Electronic excited states of polar molecules can also bind an electron to form core-excited dipole-bound states (DBSs), analogous to core-excited Rydberg states. However, core-excited DBSs have not been observed because of the complicated electronic structure of molecular systems. Here, we report the observation of a core-excited DBS in the pyrazolide anion as a result of the favorable electronic structure of the neutral pyrazolyl core, which has a low-lying excited state (Ã2B1) only 266 cm–1 above its ground state (X̃2A2). The binding energy of the DBS associated with the ground state is measured to be 221 cm–1, while that of the core-excited DBS is 276 cm–1, which is still a bound state relative to the detachment threshold. Vibrational Feshbach resonances are observed for both DBSs, and their autodetachment behaviors are studied by resonant photoelectron imaging.

Topics & Concepts

Excited stateAtomic physicsRydberg formulaDipoleBinding energyGround stateChemistryIonCore (optical fiber)PhysicsIonizationOrganic chemistryOpticsAdvanced Chemical Physics StudiesMolecular Junctions and NanostructuresInorganic Fluorides and Related Compounds
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