http://arxiv.org/abs/1510.08827
With high resolution (0″25 x 0″18) ALMA CO 3-2 observations of the nearby (D=21 Mpc), extremely radio quiet galaxy NGC1377, we have discovered a high velocity, very collimated molecular jet with a projected length of $\pm$160 pc. Along the jet axis we find strong velocity reversals swinging from -180 to +180 km/s. A simple model of a precessing molecular jet can reproduce the observations. The launch region is inside a radius r<10 pc and the velocity of the outflowing gas lies between 250 and 600 km/s. The CO emission is clumpy and the jet molecular mass ranges between 2e6 Msun (light jet) and 2e7 Msun (massive jet).
We suggest that the driving mechanism of the molecular jet is either a (fading) radio jet or an accretion disk-wind similar to those found towards protostars. It seems unlikely that a massive jet could have been driven out by the current level of nuclear activity which should then have undergone rapid quenching. In contrast, a light jet would have expelled only 10% of the nuclear gas and may facilitate nuclear activity instead of suppressing it. The precession can be powered by a binary supermassive black hole (SMBH) or by gas of misaligned angular momentum flowing onto a warped accretion disk. Large columns of H2 in the nucleus of NGC1377 suggest a high rate of recent gas infall. The current IR emission of NGC1377 may be powered by a SMBH accreting at a rate of about 10% Eddington. There is tentative evidence that the molecular gas in the jet is decelerating and that the gas in the outflow therefore can return and fuel future nuclear growth. Further studies are required to determine the age and mass of the molecular jet and the role it plays in the nuclear growth of NGC1377. There is also a broad, cone-like structure of CO emission in NGC1377 which seems to be a slower, wide-angle molecular outflow with an estimated molecular mass of approximately 1e8 Msun.
S. Aalto, F. Costagliola, S. Muller, et. al.
Fri, 30 Oct 15
2/54
Comments: 8 pages, 6 figures, submitted to Astronomy & Astrophysics
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