Hyperfine components of all rovibrational quadrupole transitions in the H$_{2}$ and D$_{2}$ molecules

Abstract: We report results of a theoretical investigation of hyperfine interactions in two homonuclear isotopologues of the hydrogen molecule: H 2 and D 2 . We present a set of hyperfine coupling constants: spin-rotation, spin-spin dipole and, in the case of the D 2 molecule, electric quadrupole coupling constants for all bound states of the two isotopologues in their ground electronic X 1 Σ + g state. We provide a list of positions and intensities of 220 997 hyperfine components of 16 079 rovibrational quadrupole tran… Show more

“…[22] determined Q d with an uncertainty of 1.5 % from the hyperfine spectrum of a pure rotational transition of HD + . However, the most precise determination so far is from a comparison of experiment and theory for the neutral hydrogen molecules [18][19][20]. Their stated uncertainties, ranging from 1 × 10 −4 to 8 × 10 −4 , are so small that it is worthwhile to perform an independent measurement, using the molecular hydrogen ion HD + or D + 2 .…”

Hyperfine structure and electric quadrupole transitions in the deuterium molecular ion

“…[22] determined Q d with an uncertainty of 1.5 % from the hyperfine spectrum of a pure rotational transition of HD + . However, the most precise determination so far is from a comparison of experiment and theory for the neutral hydrogen molecules [18][19][20]. Their stated uncertainties, ranging from 1 × 10 −4 to 8 × 10 −4 , are so small that it is worthwhile to perform an independent measurement, using the molecular hydrogen ion HD + or D + 2 .…”

Hyperfine structure and electric quadrupole transitions in the deuterium molecular ion