%0 Generic %1 corlies2016empirically %A Corlies, Lauren %A Schiminovich, David %D 2016 %K absorption cgm constraints emission prediction %T Empirically Constrained Predictions for Metal-Line Emission from the Circumgalactic Medium %U http://arxiv.org/abs/1607.08616 %X The circumgalactic medium (CGM) remains one of the least constrained components of galaxies and as such has significant potential for advancing galaxy formation theories. In this work, we vary the extragalactic ultraviolet background for a high-resolution cosmological simulation of a Milky Way-like galaxy and examine the effect on the absorption and emission properties of metals in the CGM. We find that a reduced quasar background brings the column density predictions into better agreement with recent data. Similarly, when the observationally derived physical properties of the gas are compared to the simulation, we find that the simulation gas is always at temperatures approximately 0.5 dex higher. Thus, similar column densities can be produced from fundamentally different gas. However, emission maps can provide complementary information to the line-of-sight column densities to better derive gas properties. From the simulations, we find that the brightest emission is less sensitive to the extragalactic background and that it closely follows the fundamental filamentary structure of the halo. This becomes increasingly true as the galaxy evolves from z=1 to z=0 and the majority of the gas transitions to a hotter, more diffuse phase. For the brightest ions (CIII, CIV, OVI), detectable emission can extend as far as 120 kpc at z=0. Finally, resolution is a limiting factor for the conclusions we can draw from emission observations but with moderate resolution and reasonable detection limits, upcoming instrumentation should place constraints on the physical properties of the CGM.

@misc{corlies2016empirically, abstract = {The circumgalactic medium (CGM) remains one of the least constrained components of galaxies and as such has significant potential for advancing galaxy formation theories. In this work, we vary the extragalactic ultraviolet background for a high-resolution cosmological simulation of a Milky Way-like galaxy and examine the effect on the absorption and emission properties of metals in the CGM. We find that a reduced quasar background brings the column density predictions into better agreement with recent data. Similarly, when the observationally derived physical properties of the gas are compared to the simulation, we find that the simulation gas is always at temperatures approximately 0.5 dex higher. Thus, similar column densities can be produced from fundamentally different gas. However, emission maps can provide complementary information to the line-of-sight column densities to better derive gas properties. From the simulations, we find that the brightest emission is less sensitive to the extragalactic background and that it closely follows the fundamental filamentary structure of the halo. This becomes increasingly true as the galaxy evolves from z=1 to z=0 and the majority of the gas transitions to a hotter, more diffuse phase. For the brightest ions (CIII, CIV, OVI), detectable emission can extend as far as 120 kpc at z=0. Finally, resolution is a limiting factor for the conclusions we can draw from emission observations but with moderate resolution and reasonable detection limits, upcoming instrumentation should place constraints on the physical properties of the CGM.}, added-at = {2016-08-01T09:53:59.000+0200}, author = {Corlies, Lauren and Schiminovich, David}, biburl = {https://www.bibsonomy.org/bibtex/2ec26eadd8296862fe2e1a10971441a62/miki}, description = {[1607.08616] Empirically Constrained Predictions for Metal-Line Emission from the Circumgalactic Medium}, interhash = {b27e2a2e0ce36b494da719af9c956f21}, intrahash = {ec26eadd8296862fe2e1a10971441a62}, keywords = {absorption cgm constraints emission prediction}, note = {cite arxiv:1607.08616Comment: 24 pages, 14 figures, accepted for publication int he Astrophysical Journal}, timestamp = {2016-08-01T09:53:59.000+0200}, title = {Empirically Constrained Predictions for Metal-Line Emission from the Circumgalactic Medium}, url = {http://arxiv.org/abs/1607.08616}, year = 2016 }