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Emission-line galaxies next up previous
Next: Quasars Up: Results of follow-up spectroscopy Previous: Results of follow-up spectroscopy

Emission-line galaxies

The new emission line galaxies are listed in Table 2 containing the following information:
column 1: The object's IAU-type name with the prefix HS. We note by asterisk objects observed at Calar Alto.
column 2: Right ascension for equinox B1950.
column 3: Declination for equinox B1950. The coordinates were measured on direct plates of the HQS and are accurate to $\sim$ 2$\arcsec$ (Hagen et al. [1995]).
column 4: Heliocentric velocity and its r.m.s. uncertainty in km s-1.
column 5: Apparent B-magnitude obtained by calibration of the digitized photoplates with photometric standard stars (Engels et al. [1994]), having an r.m.s. accuracy of $\sim$ $0\fm5$ for objects fainter than m$_{\rm B}$ = $16\fm0$ (Popescu et al. [1996]). Since the algorithm to calibrate the objective prism spectra is optimized for point sources the brightnesses of extended galaxies are underestimated. The resulting systematic uncertainties are expected to be as large as 2 mag (Popescu et al. [1996]). For about 1/3 of our objects, B-magnitudes are unavailable at the moment. We present for them blue magnitudes obtained from the APM database. They are marked by a ``plus" before the value in the corresponding column. According to our estimate they are systematically brighter by $0\fm92$ than the B-magnitudes obtained by calibration of the digitized photoplates (r.m.s. $1\fm02$).
column 6: Absolute B-magnitude, calculated from the apparent B-magnitude and the heliocentric velocity. No correction for galactic extinction is made as all objects are located at high galactic latitudes and because the corrections are significantly smaller than the uncertainties of the magnitudes.
column 7: Preliminary spectral classification type according to the spectral data presented in this article. BCG means that the galaxy posesses a characteristic H II-region spectrum and that the luminosity is low enough. SBN and DANS are galaxies of lower excitation with a corresponding position in line ratio diagrams, as discussed in Paper I. SBN are the brighter fraction of this type. We here follow the notation of Salzer et al. (1989). Seyfert galaxies are separated mainly on diagnostic diagrams as AGN. But if their emission lines are quite narrow, they probably should be classified as Sy2. SA is a probable super-association at the rim of an edge-on nearby disk galaxy. Six objects are difficult to classify. They are coded as NON.
column 8: One or more alternative names, according to the information from NED.[*]

The spectra of all emission-line galaxies are shown in Appendix A, which is available only in the electronic version of the journal.

The results of line flux measurements are given in Table 4. It contains the following information:
column 1: The object's IAU-type name with the prefix HS. By asterisk we note the objects observed during non-photometric conditions.
column 2: Observed flux (in 10-16ergs-1cm-2) of the H$\beta$ line. For few objects without H$\beta$ emission line the fluxes are given for H$\alpha$ marked by a ``plus''. For the objects observed in Calar Alto during non-photometric conditions this parameter is unreliable and marked by (:).
columns 3,4,5: The observed flux ratios [O II]/H$\beta$, [O III]/H$\beta$ and H$\alpha$/H$\beta$.
columns 6,7: The observed flux ratios [N II]$\lambda$6583 Å/H$\alpha$, and ([S II]$\lambda$6716 Å + $\lambda$6731 Å)/H$\alpha$.
columns 8,9,10: Equivalent widths of the lines [O II]$\lambda$3727 Å, H$\beta$ and [O III]$\lambda$5007 Å. For few objects without detected H$\beta$ emission line the equivalent widths are given for H$\alpha$ marked by a ``plus''.

Below we give notes on several individual objects:

HS1015+3717: In the spectrum of this object a cosmic ray hit is exactly on the line [O III]$\lambda$4959Å. This was not corrected in the figure shown in Appendix A.
HS1214+3801: This is seemingly a supergiant H II-region at the very rim of the nearby edge-on disc galaxy (SA(s)cd) NGC 4244 (Vhel = 224 kms-1 and BT=10.88). At the accepted distance of NGC 4244 (D=4.5 Mpc) M$_{\rm B}$ of HS1214+3801 is about -$11\fm8$. The difference between the systemic radial velocity of the host galaxy and H II-region is small (32 kms-1) and does not contradict that HS1214+3801 belongs to NGC 4244. Unfortunately, the velocity field of NGC 4244 near the position of the H II-region is unkown. Both, the single-dish H I-measurements as summarized in Huchtmeier & Richter ([1989]), and an estimate of the maximum rotational velocity V $_{\rm rot} \leq$ 130 kms-1 (which we obtained through the Tully-Fisher relation from the absolute B-band magnitude of NGC 4244 of $\sim$ -$17\fm8$), yield a range of expected velocity differences between the galaxien material and HS 1214+3801 of up to +160 or -100 kms-1. But since the 2-D spectrum of HS 1214+3801 with a total spatial extent of about 20 $^{\prime\prime}$ ($\approx$0.5 kpc) shows evidences of internal motions with the amplitude of about 50 kms-1 we need to consider an alternative interpretation for this object as a companion BCG. Its SF burst may be triggered due to the tidal effect from the more massive galaxy, similar to the case of HS 1717+4955 described in Kniazev et al. ([2000]). To check this option one needs a detailed map of the NGC 4244 velocity field including HS 1214+3801.
HS1214+3922: This BCG was reobserved with higher S/N ratio in order to measure the flux of the [O III]$\lambda$4363 line, necessary to determine unambiguously the electron temperature Te([O III]) of the H II-region and the oxygen abundance. A preliminary determination according to the procedure described by Izotov et al. ([1997]) shows that it has the low oxygen-abundances of log(O/H) + 12 = 7.76.


next up previous
Next: Quasars Up: Results of follow-up spectroscopy Previous: Results of follow-up spectroscopy
Andrew Ugryumov
2000-02-08