%0 Generic %1 zhang2016hydrogen %A Zhang, Huanian %A Zaritsky, Dennis %A Zhu, Guangtun %A Ménard, Brice %A Hogg, David W. %D 2016 %K Halpha emission halos sdss %T Hydrogen Emission from the Ionized Gaseous Halos of Low Redshift Galaxies %U http://arxiv.org/abs/1611.00004 %X Using a sample of nearly half million galaxies, intersected by over 7 million lines of sight from the Sloan Digital Sky Survey Data Release 12, we trace H$\alpha$ + NII emission from a galactocentric projected radius, $r_p$, of 5 kpc to more than 100 kpc. The emission flux surface brightness is $r_p^-1.9 0.4$. We obtain consistent results using only the H$\alpha$ or NII flux. We measure a stronger signal for the bluer half of the target sample than for the redder half on small scales, $r_p <$ 20 kpc. We obtain a $3\sigma$ detection of H$\alpha$ + NII emission in the 50 to 100 kpc $r_p$ bin. The mean emission flux within this bin is $(1.10 0.35) 10^-20$ erg cm$^-2$ s$^-1$ \AA$^-1$, which corresponds to $1.87 10^-20$ erg cm$^-2$ s$^-1$ arcsec$^-2$ or 0.0033 Rayleigh. This detection is 34 times fainter than a previous strict limit obtained using deep narrow-band imaging. The faintness of the signal demonstrates why it has been so difficult to trace recombination radiation out to large radii around galaxies. This signal, combined with published estimates of n$_H$, lead us to estimate the temperature of the gas to be 12,000 K, consistent with independent empirical estimates based on metal ion absorption lines and expectations from numerical simulations.

@misc{zhang2016hydrogen, abstract = {Using a sample of nearly half million galaxies, intersected by over 7 million lines of sight from the Sloan Digital Sky Survey Data Release 12, we trace H$\alpha$ + [N{\small II}] emission from a galactocentric projected radius, $r_p$, of 5 kpc to more than 100 kpc. The emission flux surface brightness is $\propto r_p^{-1.9 \pm 0.4}$. We obtain consistent results using only the H$\alpha$ or [N{\small II}] flux. We measure a stronger signal for the bluer half of the target sample than for the redder half on small scales, $r_p <$ 20 kpc. We obtain a $3\sigma$ detection of H$\alpha$ + [N{\small II}] emission in the 50 to 100 kpc $r_p$ bin. The mean emission flux within this bin is $(1.10 \pm 0.35) \times 10^{-20}$ erg cm$^{-2}$ s$^{-1}$ \AA$^{-1}$, which corresponds to $1.87 \times 10^{-20}$ erg cm$^{-2}$ s$^{-1}$ arcsec$^{-2}$ or 0.0033 Rayleigh. This detection is 34 times fainter than a previous strict limit obtained using deep narrow-band imaging. The faintness of the signal demonstrates why it has been so difficult to trace recombination radiation out to large radii around galaxies. This signal, combined with published estimates of n$_{\rm H}$, lead us to estimate the temperature of the gas to be 12,000 K, consistent with independent empirical estimates based on metal ion absorption lines and expectations from numerical simulations.}, added-at = {2016-11-02T09:51:43.000+0100}, author = {Zhang, Huanian and Zaritsky, Dennis and Zhu, Guangtun and Ménard, Brice and Hogg, David W.}, biburl = {https://www.bibsonomy.org/bibtex/2f48dbf24c468080b1064d3e3cca693ae/miki}, description = {[1611.00004] Hydrogen Emission from the Ionized Gaseous Halos of Low Redshift Galaxies}, interhash = {20a0db5b46e743f10afc369ca2fd5522}, intrahash = {f48dbf24c468080b1064d3e3cca693ae}, keywords = {Halpha emission halos sdss}, note = {cite arxiv:1611.00004Comment: 12 pages, 13 figures}, timestamp = {2016-11-02T09:51:43.000+0100}, title = {Hydrogen Emission from the Ionized Gaseous Halos of Low Redshift Galaxies}, url = {http://arxiv.org/abs/1611.00004}, year = 2016 }