JWST detection of extremely excited outflowing CO and H2O in VV 114 E SW: a possible rapidly accreting IMBH

Abstract

Mid-infrared (mid-IR) gas-phase molecular bands are powerful diagnostics of the warm interstellar medium. We report the James Webb Space Telescope detection of the CO v=1-0 (4.4-5.0 um) and H2O nu2=1-0 (5.0-7.8um) ro-vibrational bands, both in absorption, toward the ``s2'' core in the southwest nucleus of the merging galaxy VV 114 E. All ro-vibrational CO lines up to Jlow=33 (Elow~3000 K) are detected, as well as a forest of H2O lines up to 130,13 (Elow~2600 K). The highest-excitation lines are blueshifted by ~180 km s-1 relative to the extended molecular cloud, which is traced by the rotational CO J=3-2 346 GHz line observed with the Atacama Large Millimeter/submillimeter Array. The bands also show absorption in a low-velocity component (blueshifted by ~30 km s-1) with lower excitation. The analysis shows that the bands are observed against a continuum with effective temperature of Tbck~550 K extinguished with tau6umext~ 2.5-3 (Ak~6.9-8.3 mag). The high-excitation CO and H2O lines are consistent with v=0 thermalization with Trot~450 K and column densities of NCO~(1.7-3.5)x1019 cm-2 and NH2O~(1.5-3.0)x1019 cm-2. Thermalization of the v=0 levels of H2O requires either an extreme density of nH2>~109 cm-3, or radiative excitation by the mid-IR field in a very compact (<1 pc) optically thick source emitting ~1010 Lsun. The latter alternative is favored, implying that the observed absorption probes the very early stages of a fully enshrouded active black hole (BH). On the basis of a simple model for BH growth and applying a lifetime constraint to the s2 core, an intermediate-mass BH (IMBH, MBH~4.5x104 Msun) accreting at super-Eddington rates is suggested, where the observed feedback has not yet been able to break through the natal cocoon.

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