We present a simple method for tracing the spatial distribution and predicting the physical properties of the Warm-Hot Intergalactic Medium (WHIM), from the map of galaxy light in the Local Universe. Under the assumption that biasing is local and monotonic we map the ~2 h-1 Mpc smoothed density field of galaxy light into the mass-density field, from which we infer the spatial distribution of the WHIM in the Local Supercluster. Taking into account the scatter in the WHIM density-temperature and density-metallicity relation, extracted from the z= 0 outputs of high-resolution and large-box-size hydrodynamical cosmological simulations, we are able to quantify the probability of detecting WHIM signatures in the form of absorption features in the...
Hydrodynamic simulations predict that a significant fraction of the gas in the current Universe is i...
We have identified a large-scale structure traced by galaxies at z=0.8, within the Lockman Hole, by ...
In the last few years, the realization has emerged that the universal baryons are almost equally dis...
We present a simple method for tracing the spatial distribution and predicting the physical properti...
We present a simple method for tracing the spatial distribution and predicting the physical properti...
We present a simple method for tracing the spatial distribution and predicting the physical properti...
Context.Hydrodynamical simulations indicate that a substantial fraction of baryons in the universe ...
About half of the baryons in the local Universe are not yet observed and are thought to reside in th...
Modern analyses of structure formation predict a universe tangled in a 'cosmic web' of dark matter a...
Recent analyses of the fluctuations of the soft diffuse X-ray background (DXB) have provided indirec...
International audienceWe propose a new approach to the problem of the missing baryons. Building on t...
Restricted Access. Proceedings of the conference held 18-21 June, 2007, at the National Radio Astron...
We have identified a large-scale structure traced by galaxies at $z=0.8$, within the Lockman Hole, ...
We have identified a large-scale structure traced by galaxies at z=0.8, within the Lockman Hole, by ...
Hydrodynamic simulations predict that a significant fraction of the gas in the current Universe is i...
We have identified a large-scale structure traced by galaxies at z=0.8, within the Lockman Hole, by ...
In the last few years, the realization has emerged that the universal baryons are almost equally dis...
We present a simple method for tracing the spatial distribution and predicting the physical properti...
We present a simple method for tracing the spatial distribution and predicting the physical properti...
We present a simple method for tracing the spatial distribution and predicting the physical properti...
Context.Hydrodynamical simulations indicate that a substantial fraction of baryons in the universe ...
About half of the baryons in the local Universe are not yet observed and are thought to reside in th...
Modern analyses of structure formation predict a universe tangled in a 'cosmic web' of dark matter a...
Recent analyses of the fluctuations of the soft diffuse X-ray background (DXB) have provided indirec...
International audienceWe propose a new approach to the problem of the missing baryons. Building on t...
Restricted Access. Proceedings of the conference held 18-21 June, 2007, at the National Radio Astron...
We have identified a large-scale structure traced by galaxies at $z=0.8$, within the Lockman Hole, ...
We have identified a large-scale structure traced by galaxies at z=0.8, within the Lockman Hole, by ...
Hydrodynamic simulations predict that a significant fraction of the gas in the current Universe is i...
We have identified a large-scale structure traced by galaxies at z=0.8, within the Lockman Hole, by ...
In the last few years, the realization has emerged that the universal baryons are almost equally dis...