21 research outputs found
HI shells in the Leiden/Argentina/Bonn HI survey
We analyse the all-sky Leiden/Argentina/Bonn HI survey, where we identify
shells belonging to the Milky Way. We used an identification method based on
the search of continuous regions of a low brightness temperature that are
compatible with given properties of HI shells. We found 333 shells in the whole
Galaxy. The size distribution of shells in the outer Galaxy is fitted by a
power law with the coefficient of 2.6 corresponding to the index 1.8 in the
distribution of energy sources. Their surface density decreases exponentially
with a scale length of 2.8 kpc. The surface density of shells with radii >= 100
pc in the solar neighbourhood is around 4 per kpc^2 and the 2D porosity is
approximately 0.7.Comment: 19 pages (incl. 10 pages appendix), 12 figures. Accepted for
publication in A&
HI shells in the outer Milky Way
We present results of a method for an automatic search for HI shells in 3D
data cubes and apply it to the Leiden-Dwingeloo HI survey of the northern Milky
Way. In the 2nd Galactic quadrant, where identifications of structures are not
substantially influenced by overlapping, we find nearly 300 structures. The
Galactic distribution of shells has an exponential profile in the radial
direction with a scale length of 3 kpc. In the z direction, one half of the
shells are found at distances smaller than 500 pc. We also calculate the
energies necessary to create the shells: there are several structures with
energies greater than 10 E_SN but only one with an energy exceeding 100 E_SN.
Their size distribution, corrected for distance effects, is approximated by a
power-law with an index 2.1. Our identifications provide a lower limit to the
filling factor of shells in the outer Milky Way: f_2D = 0.4 and f_3D = 0.05.Comment: accepted by A&A; 14 pages, 15 figures (3 multiple
The HI supershell GS061+00+51 and its neighbours
We describe HI observations of a 4 x 4 degrees field in the Milky Way centered on l=61 deg, b=0 deg made by the Effelsberg radiotelescope. The field contains one previously identified HI supershell, GS061+00+51 (Heiles, 1979); apart from it we find several new structures. We also study the HI distribution in the vicinity of four HII regions, S86, S87, S88 and S89. We confirm the existence of the shell GS061+00+51, and we find that it has two smaller neighbours, spherical shells with a radius around 30 pc. We identify at least one more regular shell at v_LSR = -18 km/s; and one blown-out shell at v_LSR = -54 km/s. In two cases we are able to connect HII regions with features in the HI distribution (S86 and S87), in two other cases no connection is found. Apart from quite regular HI shells we see a number of non-coherent objects, which are probably a result of the turbulence in the interstellar medium