Measurement and assignment of J ≥ 10 rotational energy levels in the 9510 to 9810 cm-1 and 6590 to 6900 cm-1 ranges of methane using optical frequency comb double-resonance spectroscopy

Abstract

Accurate models of high temperature methane spectra are needed in astrophysics. Previous measurements of methane hot-band transitions in the P6 ← P2 polyad range have been limited to final rotational numbers of J 9, with theoretical predictions at higher Js remaining unvalidated. Here, we use optical-optical double resonance spectroscopy (OODR) with a 3.3 μm narrow linewidth pump to excite the ν3 P(12, A1(2)) methane transition (P2 ← P0) and a cavity-enhanced frequency comb centered around 1.68 μm to probe the sub-Doppler ladder-type (P6 ← P2) and V-type (P4 ← P0) transitions, as well as Doppler-broadened collision-induced four-level transitions (P6 ← P2). 49 ladder-type transitions with final rotational states J = 10-12 in the range of 9510 to 9810 cm-1 (i.e., the P6 polyad) were assigned to effective Hamiltonian predictions and the ExoMol database, of which 6 reached vibrational states that had not been observed experimentally before. 19 sub-Doppler V-type transitions with final states J = 11-13 in the range of 6590 to 6900 cm-1 (i.e., the P4 polyad) were observed and assigned to the Hamiltonian and ExoMol, while only 2 of these V-type transitions could be unambiguously assigned to WKLMC and HITRAN line lists. 170 Doppler-broadened four-level double-resonance (4LDR) lines were observed, 7 of which were newly observed compared with our previous work when pumping transitions starting from the J = 7 level in the ground state [Lehmann et al., J. Chem. Phys. 163, 144304 (2025)]. We could not assign these lines as they did not form combination differences with other observed 4LDR transitions.

0

Turn this paper into a full lesson

ArcXiv compiles a staged curriculum from this paper: 8-12 lessons across beginner → advanced, synthesised section guides, visuals, flashcards, a quiz, exercises, and on-demand deep dives per section. Grounded in the abstract, never invented.

Discussion (0)

Sign in to join the discussion.

Loading comments…