2019MNRAS.483.4586F


Query : 2019MNRAS.483.4586F

2019MNRAS.483.4586F - Mon. Not. R. Astron. Soc., 483, 4586-4614 (2019/March-2)

Cold molecular outflows in the local Universe and their feedback effect on galaxies.

FLUETSCH A., MAIOLINO R., CARNIANI S., MARCONI A., CICONE C., BOURNE M.A., COSTA T., FABIAN A.C., ISHIBASHI W. and VENTURI G.

Abstract (from CDS):

We study molecular outflows in a sample of 45 local galaxies, both star forming and active galactic nucleus (AGN), primarily by using CO data from the Atacama Large Millimeter/submillimeter Array (ALMA) archive and from the literature. For a subsample, we also compare the molecular outflow with the ionized and neutral atomic phases. We infer an empirical analytical function relating the outflow rate simultaneously to the star formation rate (SFR), LAGN, and galaxy stellar mass; this relation is much tighter than the relations with the individual quantities. The outflow kinetic power shows a larger scatter than in previous, more biased studies, spanning from 0.1 to 5 per cent of LAGN, while the momentum rate ranges from 1 to 30 times LAGN/c, indicating that these outflows can be both energy driven, but with a broad range of coupling efficiencies with the interstellar medium (ISM), and radiation pressure driven. For about 10 per cent of the objects, the outflow energetics significantly exceed the maximum theoretical values; we interpret these as 'fossil outflows' resulting from activity of a past strong AGN, which has now faded. We estimate that, in the stellar mass range probed here (> 1010 M), less than 5 per cent of the outflowing gas escapes the galaxy. The molecular gas depletion time associated with the outflow can be as short as a few million years in powerful AGN; however, the total gas (H2 + H I) depletion times are much longer. Altogether, our findings suggest that even AGN-driven outflows might be relatively ineffective in clearing galaxies of their entire gas content, although they are likely capable of clearing and quenching the central region.

Abstract Copyright: © 2018 The Author(s) Published by Oxford University Press on behalf of the Royal Astronomical Society

Journal keyword(s): galaxies: active - galaxies: evolution - galaxies: ISM - quasars: general - galaxies: star formation

Simbad objects: 45

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Number of rows : 45
N Identifier Otype ICRS (J2000)
RA
ICRS (J2000)
DEC
Mag U Mag B Mag V Mag R Mag I Sp type #ref
1850 - 2023
#notes
1 NGC 253 SyG 00 47 33.134 -25 17 19.68   8.03   6.94 8.1 ~ 3192 2
2 Mrk 1502 Sy1 00 53 34.9331107632 +12 41 35.929269132   14.41 14.03     ~ 1118 1
3 Mrk 1014 Sy1 01 59 50.2534701768 +00 23 40.864244784   16.08 15.87     ~ 554 0
4 M 77 GiP 02 42 40.7091669408 -00 00 47.859690204 9.70 9.61 8.87 10.1 9.9 ~ 4424 2
5 NGC 1266 AGN 03 16 00.7739640240 -02 25 37.827013584   14   12.46   ~ 287 1
6 IRAS 03158+4227 G 03 19 11.9490689880 +42 38 25.463172912           ~ 55 0
7 NGC 1377 GiG 03 36 39.077 -20 54 08.14   13.38   12.12   ~ 215 0
8 NGC 1386 GiP 03 36 46.238 -35 59 57.39 12.42 12.16 11.23 10.76   ~ 504 1
9 NGC 1433 GiG 03 42 01.4847418992 -47 13 18.929092656   10.84 9.99 9.61 10.2 ~ 352 0
10 NGC 1614 AGN 04 34 00.027 -08 34 44.57   14.66 13.99     ~ 649 0
11 NGC 1808 Sy2 05 07 42.343 -37 30 46.98 11.05 10.80 9.94 9.36 10.2 ~ 699 3
12 ZW VII 31 G 05 16 46.384 +79 40 12.63   15.8       ~ 144 0
13 LEDA 17155 Sy2 05 21 01.3994605776 -25 21 45.321827832   15.47 14.75     ~ 475 0
14 NGC 2146 SBG 06 18 37.710 +78 21 25.27 11.67 11.38 10.59     ~ 681 2
15 NAME IRAS F08572+3915 NW LIN 09 00 25.364 +39 03 54.23     16.66     ~ 405 1
16 M 82 IG 09 55 52.430 +69 40 46.93 9.61 9.30 8.41     ~ 5676 6
17 FIRST J100645.8+483741 rG 10 06 45.874 +48 37 43.34   15.7       ~ 28 0
18 NGC 3256 IG 10 27 51.284 -43 54 13.55   11.83 11.33 10.62 11.9 ~ 811 2
19 LEDA 33083 LIN 10 59 18.128 +24 32 34.74   15.7       ~ 261 1
20 IRAS 11119+3257 Sy1 11 14 38.8902542640 +32 41 33.483258276   19.22 17.96     ~ 135 1
21 NGC 3628 GiP 11 20 17.018 +13 35 22.16   10.42 9.48 9.22   ~ 800 3
22 ESO 320-30 H2G 11 53 11.722 -39 07 48.72   13.30   11.86   ~ 172 1
23 NGC 4355 Sy2 12 26 54.6206739120 -00 52 39.421212996   14.21 13.37     ~ 464 2
24 Mrk 231 Sy1 12 56 14.2341182928 +56 52 25.238373852   14.68 13.84     ~ 1930 3
25 2MASX J13150638-5509225 Sy2 13 15 06.383 -55 09 22.60   17.3       ~ 133 0
26 M 51 GiP 13 29 52.698 +47 11 42.93   9.26 8.36 8.40   ~ 4159 4
27 NAME OKM2018 SWIFT J1344.7+5588 Sy2 13 44 42.1883001096 +55 53 13.596220932   15.68 14.91     ~ 883 3
28 ICRF J134733.3+121724 Sy2 13 47 33.36161873 +12 17 24.2398927   19.28 18.44 15.718   ~ 564 3
29 SDSS J135646.10+102609.0 Sy2 13 56 46.106 +10 26 09.09   18.90 18.11     ~ 72 0
30 NAME Circinus Galaxy Sy2 14 13 09.906 -65 20 20.47   10.89 9.84 10.6 10.0 ~ 1127 2
31 NGC 5643 Sy2 14 32 40.778 -44 10 28.60   11.03 13.60 9.92 10.6 ~ 529 0
32 LEDA 52270 Sy1 14 37 38.2867288488 -15 00 24.087592692   16.58 16.40     ~ 265 1
33 LEDA 89507 Sy2 14 40 59.0135478768 -37 04 31.938829896   17.72   16.48   ~ 109 0
34 NVSS J151402+015737 rG 15 14 03.0660014952 +01 57 33.420969504           ~ 14 0
35 Mrk 876 Sy1 16 13 57.1795021224 +65 43 09.952685328   16.03 15.49     ~ 553 0
36 NGC 6240 Sy2 16 52 58.861 +02 24 03.55   14.31 13.37     ~ 1589 2
37 LEDA 60189 LIN 17 23 21.943 -00 17 00.96   15.1       ~ 410 0
38 NGC 6764 LIN 19 08 16.4036066688 +50 55 59.519979084   15.00 14.32     ~ 288 1
39 NGC 6810 Sy2 19 43 34.4178888528 -58 39 20.192400540   12.34 11.22 10.71   ~ 150 0
40 [VV2000] J201329.8-414735 QSO 20 13 29.509 -41 47 35.48   17.0       ~ 121 2
41 IC 5063 Sy2 20 52 02.329 -57 04 07.60   12.92 13.60 11.30   ~ 611 1
42 ESO 286-19 LIN 20 58 26.8183783008 -42 38 59.411838156   14.79 14.79 14.20   ~ 276 0
43 NAME South America H2G 22 51 49.307 -17 52 23.96   16.97       ~ 314 3
44 LEDA 70560 Sy2 23 08 33.9537309816 +05 21 29.751752412           ~ 144 0
45 LEDA 90429 SyG 23 39 01.274 +36 21 08.77   16.17       ~ 209 1

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2023.01.30-05:11:26

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