ROSAT X-ray sources in the field of the LMC I.Total LMC gas from the background AGN spectral fits

TL;DR

This study uses X-ray spectral analysis of background sources to measure and compare the gas content in the Large Magellanic Cloud, revealing additional gas components beyond HI in certain regions.

Contribution

It provides new measurements of LMC gas columns from X-ray spectral fits and compares them with HI data, identifying regions with excess gas.

Findings

Most gas columns agree with HI measurements within uncertainties.

Some sources show excess gas, indicating additional warm, cold, or molecular gas.

Constraints on molecular mass fraction are established.

Abstract

We analyzed a sample of 26 background X-ray sources in a ~60 square degree field of the Large Magellanic Cloud observed with the ROSAT PSPC. The sample has been selected from previously classified and optically identified X-ray sources. In addition pointlike and spectrally hard sources with at least 100 to 200 observed counts have been used for the analysis. We performed X-ray spectral fitting and derived total hydrogen absorbing column densities due to LMC gas in the range 10^20 - 2. 10^21 cm^-2. We compared these columns with the HI columns derived from a 21-cm Parkes survey of the LMC. For 7 optically identified sources we find, within the uncertainties derived from the X-ray spectral fit, agreement for both columns. For further 19 sources we constrain the LMC columns from the X-ray spectral fit assuming that the powerlaw photon index is that of AGN type spectra. We derive for 20 sources gas columns which are within the uncertainties in agreement with the HI columns. We derive for two background sources (RX J0536.9-6913 and RX J0547.0-7040) hydrogen absorbing column densities due to LMC gas, which are in excess to the HI columns. These sources - located in regions of large (~3. 10^21 cm^-2) LMC HI column densities - could be seen through additional gas which may be warm and diffuse, cold or molecular. For 10 sources we derive upper limits for the gas columns additional to HI and constrain the molecular mass fraction to <(30-140)%.