C.D.S. - SIMBAD4 rel 1.7 - 2021.02.28CET21:01:35

2009A&A...493..511V - Astronomy and Astrophysics, volume 493, 511-524 (2009/1-2)

A kinematic study of the irregular dwarf galaxy NGC2366 using HI and Hα observations.


Abstract (from CDS):

The metal content of dwarf galaxies and the metal enrichment of the intergalactic medium both suggest that mass loss from galaxies is a significant factor for the chemical evolution history of galaxies, in particular of dwarf galaxies. However, no clear evidence of a blow-away in local dwarf galaxies has been found so far. Dwarf galaxies provide a perfect environment for studying feedback processes because their kinematics and their generally low gravitational potential support the long-term survival of shells, filaments, and holes. We therefore performed a detailed kinematic analysis of the neutral and ionised gas in the nearby star-forming irregular dwarf galaxy NGC2366 in order to make predictions about the fate of the gas and to get a more complete picture of this galaxy. A deep Hα image and Fabry-Perot interferometric data of NGC2366 were obtained. They were complemented by HI synthesis data from the THINGS survey. We searched for line-splitting both in Hα and HI by performing a Gaussian decomposition. To get an idea whether the expansion velocities are high enough for a gas blow-away, we used the pseudo-isothermal halo model, which gives us realistic values for the escape velocities of NGC2366. The good data quality also allowed us to discuss some peculiarities of the morphology and the dynamics in NGC2366. A large red-shifted outflow north west of the giant extragalactic HII region with an expansion velocity of up to 50km/s is found in Hα, but not in HI. Additionally, a blue-shifted component north of the giant extragalactic HII region was detected both in Hα and HI with an expansion velocity of up to 30km/s. A comparison with the escape velocities of NGC2366 reveals that the gas does not have enough kinetic energy to leave the gravitational potential. This result is in good agreement with hydrodynamic simulations and suggests that we need to examine even less massive galaxies (Mgas=106M).

Abstract Copyright:

Journal keyword(s): galaxies: irregular - galaxies: ISM - galaxies: kinematics and dynamics - galaxies: structure

Simbad objects: 7

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Number of rows : 7

N Identifier Otype ICRS (J2000)
ICRS (J2000)
Mag U Mag B Mag V Mag R Mag I Sp type #ref
1850 - 2021
1 IC 10 G 00 20 23.16 +59 17 34.7   13.6 9.5     ~ 1021 0
2 RMC 136 Cl* 05 38 42.396 -69 06 03.36           ~ 1775 1
3 NGC 2363 G 07 28 29.83 +69 11 32.8   15.5       ~ 251 1
4 NGC 2363A HII 07 28 42.8 +69 11 21           ~ 543 3
5 NGC 2366 H2G 07 28 51.85 +69 12 31.1 12.25 11.86 11.39 11.33   ~ 711 0
6 NGC 2403 AGN 07 36 51.396 +65 36 09.17 9.31 8.84 8.38 8.19   ~ 1637 1
7 NAME M 81-82 Group GrG 09 55 +69.1           ~ 646 0

    Equat.    Gal    SGal    Ecl

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