Precision spectroscopy of the fine and hyperfine structures of high molecular Rydberg-Stark states: Metrology of molecular hydrogen ions

Abstract

The Stark effect in autoionizing high-n Rydberg states decouples the Rydberg electron from the ion core through mixing with core-nonpenetrating high- states. The Rydberg states become long-lived, which is ideal for precision spectroscopy, and their structures reflect the fine and hyperfine structures of the ion-core levels. We report on precision measurements, in weak electric fields, of the fine and hyperfine structures of two distinct categories of high autoionizing molecular Rydberg-Stark states differing by the nature of the ion-core angular momentum: Rydberg states of para-H2 (total nuclear spin I=0) with a rotationally excited (N+=2) H2+ ion core and Rydberg states of ortho-D2 (I=2) with a rotationless (N+=0) ion core. The spectra reveal striking differences which are interpreted as arising from the dominance of anisotropic charge-quadrupole interactions between the rotating quadrupolar ion core and the Rydberg electron in para-H2 and the absence of such interactions in rotationless ortho-D2 Rydberg states. In ortho-D2, the dominant interaction, the magnetic Fermi-contact hyperfine interaction in the ion core, does not significantly affect the motion of the Rydberg electron. By analyzing these spectra based on a treatment combining multichannel quantum-defect theory and matrix diagonalization, we derive new experimental values of the hyperfine coupling constant bF = 139.84(5) MHz of D2+ (v+=1, N+=0), the spin-rotation coupling constant ce = 39.62(11) MHz of H2+ (v+=1, N+=2) and the fundamental vibrational interval of ortho-D2+ (47279980.8(1.9) MHz). The approach followed here in the study of molecular Rydberg-Stark states is general and broadly applicable to measurements of the fine and hyperfine structures of molecular cations.

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