High-resolution ro-vibrational and rotational spectroscopy of the open-shell, linear CCH+ ion (3)

Abstract

In this work, we report on the high-resolution infrared spectrum of CCH+ (3) recorded in the range 3066-3184~cm-1 by means of leak-out spectroscopy. This spectral range covers the fundamental of the CH stretching mode and a highly excited bending vibrational mode. Based on this data (385 ro-vibrational lines), accurate spectroscopic descriptions of the ground and the two vibrationally excited states of CCH+ were obtained. Besides the band origins, spin-orbit coupling constants, rotational constants, centrifugal distortion constants and -doubling constants for the ground and excited vibrational states have been derived. This effective Hamiltonian analysis allowed a search for pure rotational lines of CCH+ in its electronic and vibrational ground state using a two-color millimeterwave - infrared scheme. We observed all rotational transitions from J = 2 up to J = 6 within the = 2 lowest energy fine structure component with resolved hyperfine splittings. This data has already guided the first detection of CCH+ in space toward the Orion Bar photo-dissociation region, and has the potential to support further astronomical searches for CCH+ either through radio or infrared spectroscopy, for example with the James Webb Space Telescope.