JWST Edge-on Disk Ice (JEDIce): Vibrationally hot, rotationally cold H2 in the outer disk of Oph 163131 non-thermally excited by UV and cosmic rays
Abstract
Constraining ionization and excitation processes in protoplanetary disks is essential for understanding the chemical structure and evolution of disk material, shaping planet formation pathways. We present JWST/NIRSpec IFU observations of the edge-on disk Oph 163131, which reveal a unusual ro-vibrational H2 spectrum dominated by the 1--0 O(2) line (2.627 μm), with suppressed higher-J emission despite excitation to v=2 and 3. This vibrationally hot, rotationally cold H2 emission is spatially extended, broadly following the molecular disk traced by CO(J=2--1), with emission increasing above and below a thin midplane dark lane and extending radially beyond 200 au, where near-IR scattered-light emission is no longer dominant. We interpret the observed H2 emission as arising from non-thermal excitation in cold, dense outer-disk gas, where collisions depopulate higher-J rotational levels within each vibrational manifold prior to emission, producing the characteristic ``v-hot, J-cold" spectrum. We consider both ultraviolet irradiation and cosmic-ray excitation as contributors to the H2 emission and find that their combined action, together with collisional de-excitation of high-J level populations, broadly reproduces the observed line ratios and morphology. Within this framework, we infer a rather high effective cosmic-ray ionization rate of (1-10)×10-15 s-1 in the presence of a moderate UV field (χUV=100-1000, in Draine units). These results for disks, together with the recent findings by Bialy et al. 2025 for the lower-density starless core B68, highlight the potential of ro-vibrational H2 emission as a novel probe of cosmic-ray ionization.
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