We select interesting abstracts from the astro-ph preprint arXiv which are related to our research topics and post them here. We might come back to them and discuss in our Journal Club later.
May 2012
and beyond [arXiv:1205.2276v1]
- Clerc et al, The cosmological analysis of X-ray cluster surveys: I- A new method for interpreting
number counts [arXiv:1109.4440v2]
- Clerc et al, The cosmological analysis of X-ray cluster surveys: II- Application of the CR-HR
method to the XMM archive [arXiv:1109.4441v2]
April 2012
- Kunz, The phenomenological approach to modeling the dark energy [arXiv:1204.5482v1]
- Wang, Robust constraints on dark energy and gravity from galaxy clustering data
[arXiv:1202.5238v2]
- Beutler et al, The 6dF Galaxy Survey: z \approx 0 measurement of the growth rate and sigma_8
[arXiv:1204.4725v1]
- Del Popolo, On the Density profile slope of Clusters of Galaxies [arXiv:1204.4439v1]
- Fairbairn, Constraining the Equation of State of Dark Energy with Gamma Rays
[arXiv:1204.3845v1]
- Rogone-Figueroa et al, Effects of Baryon Mass Loss on Profiles of Large Galactic
Dark Matter Haloes [arXiv:1202.1527v2]
Gaussian processes [arXiv:1204.2832v1]
distribution in clusters of galaxies [arXiv:1112.2752v2]
-
Harrison & Coles, Testing Cosmology with Extreme Galaxy Clusters [arXiv:1111.1184v2]
- Chaudhuri et al, Energy Deposition Profiles and Entropy in Galaxy Clusters [arXiv:1203.6535v2]
-
Lee, The Relative Abundance of Isolated Clusters as a Probe of Dark Energy
[arXiv:1108.1712v2]
March 2012
- Basilakos & Pouri, The growth index of matter perturbations and modified gravity [arXiv:1203.6724v1]
- Wands et al, Inhomogeneous vacuum energy [arXiv:1203.6776v1]
- Chaudhuri et al, Energy Deposition Profiles and Entropy in Galaxy Clusters [arXiv:1203.6535v1]
- Daalen et al, The effects of halo alignment and shape on the clustering of galaxies
[arXiv:1203.5335v1]
- Lombriser et al, Chameleon f(R) gravity in the virialized cluster [arXiv:1203.5125v1]
- Jassal, Scalar field dark energy perturbations and the Integrated Sachs Wolfe effect Authors
[arXiv:1203.5171v1]
- Lowenstein & Kusenko, Dark Matter Search Using XMM-Newton Observations of Willman 1
[arXiv:1203.5229v1]
- Kulinich et al, Non-linear power spectra of dark and luminous matter in halo model of structure formation
[arXiv:1203.5297v1]
- De Boni et al, Hydrodynamical simulations of galaxy clusters in dark energy cosmologies: I. general properties
[arXiv:1008.5376v4]
- Krati & Sunyaev, Creation of the CMB blackbody spectrum: precise analytic solutions [arXiv:1203.2601v1]
- Astashenok et al, Scalar dark energy models mimicking $\Lambda$CDM with arbitrary
future evolution [arXiv:1203.1976v1]
- Blackburne & Kochanek, The Structure of 2MASS Galaxy Clusters [arXiv:1105.3944v2]
- Sendra & Lazkoz, SN and BAO constraints on (new) polynomial dark energy parametrizations:
current results and forecasts [arXiv:1105.4943v4]
- Bruni et al, Disentangling non-Gaussianity, bias and GR effects in the galaxy distribution
[arXiv:1106.3999v3]
- Eckert et al, The gas distribution in the outer regions of galaxy clusters [arXiv:1111.0020v3]
- Walker et al, X-ray observations of the galaxy cluster Abell 2029 to the virial radius
[arXiv:1203.0486v1]
- Battye & Pearson, Effective action approach to cosmological perturbations in dark energy
and modified gravity [arXiv:1203.0398v1]
February 2012
- Wang, Robust constraints on dark energy and gravity from galaxy clustering data
[arXiv:1202.5238v1]
- Retena-Montenegro et al, Analytical properties of Einasto dark matter haloes
[arXiv:1202.5242v1]
- Pillepich et al, The X-ray cluster survey with eROSITA: forecasts for cosmology,
cluster physics and primordial non-Gaussianity [arXiv:1111.6587v2]
- Veilzeuf & Martins, Probing dark energy beyond $z=2$ with CODEX
[arXiv:1202.4364v1]
- Stott et al, The XMM Cluster Survey: The interplay between the brightest cluster galaxy
and the intra-cluster medium via AGN feedback [arXiv:1202.3787v1]
- Kang et al, Exploring Galaxy Formation Models and Cosmologies with Galaxy Clustering
[arXiv:1202.3143v1]
- Li et al, The clustering of galaxies as a function of their photometrically-estimated atomic
gas content [arXiv:1202.2857v1]
- Maccio et al, The inner structure of haloes in Cold+Warm dark matter models
[arXiv:1202.2858v1]
- Vinas et al, Typical density profile for warm dark matter haloes [arXiv:1202.2860v1]
- Burenin & Vikhlinin, Cosmological parameters constraints from galaxy cluster mass
function measurements in combination with other cosmological data
[arXiv:1202.2889v1]
- Hasler et al, Joint analysis of X-ray and Sunyaev Zel'dovich observations of galaxy clusters
using an analytic model of the intra-cluster medium [arXiv:1202.2411v1]
- Bellini et al, Spherical Collapse in covariant Galileon theory [arXiv:1202.2712v1]
- Basilakos, A generalized growth index parametrization: Applications to the
\Lambda$CDM using the {\em WiggleZ} growth data [arXiv:1202.1637v1]
- Bergstrom, Saas-Fee Lecture Notes: Multi-messenger Astronomy and Dark Matter
[arXiv:1202.1170v1]
- Govenato et al, Cuspy No More: How Outflows Affect the Central Dark Matter
and Baryon Distribution in Lambda CDM Galaxies [arXiv:1202.0554v1]
- Hong et al, The correlation function of galaxy clusters and detection of baryon
acoustic oscillations [arXiv:1202.0640v1]
- Kwan et al, Mapping Growth and Gravity with Robust Redshift Space Distortions
[arXiv:1105.1194v2]
- David et al, The Universal Gas Mass Fraction in Clusters of Galaxies
[arXiv:1109.5067v3]
January 2012
- Miedema, Cosmological Perturbation Theory and the Evolution of Small-Scale
Inhomogeneities [arXiv:1106.0627v2]
- Valkenburg, Perceiving the equation of state of Dark Energy while living in a Cold Spot
[arXiv:1106.6042v2]
- Huang et al, Constraining inflation with future galaxy redshift surveys
[arXiv:1201.5955v1]
[arXiv:1201.5662v1]
- Capelo et al, The polytropic approximation and X-ray scaling relations: constraints on gas
and dark matter profiles for galaxy groups and clusters [arXiv:1111.5573v2]
- Papageorgiou et al,A Consistent Comparison of Bias Models using Observational Data
[arXiv:1201.4878v1]
- Clemson et al, Interacting Dark Energy -- constraints and degeneracies [arXiv:1109.6234v3]
- Bertolomi et al, Testing the interaction of dark energy to dark matter through the analysis
of virial relaxation of clusters Abell Clusters A586 and A1689 using realistic density profiles
[arXiv:1105.3033v2]
- Cui et al, The halo mass function in interacting Dark Energy models [arXiv:1201.3568v1]
- Jimenez et al, The effective Lagrangian of dark energy from observations [arXiv:1201.3608v1]
- Santos et al, Deep Chandra observation of the galaxy cluster WARPJ1415.1+3612 at z=1:
an evolved cool-core cluster at high-redshift [arXiv:1111.3642v2]
- Weinberg et al, Observational Probes of Cosmic Acceleration [arXiv:1201.2434v1]
- Starkman et al, The Oddly Quiet Universe: How the CMB challenges cosmology's
standard mode [arXiv:1201.2459v1]
- Reichert et al, New limits on Early Dark Energy from the South Pole Telescope
[arXiv:1110.5328v2]
- Tau et al, Constraining Cluster Physics with the Shape of X-ray Clusters: Comparison of
Local X-ray Clusters versus LCDM Clusters [arXiv:1201.2168v2]
- Wang, Observational Probes of Dark Energy [arXiv:1201.2110v1]
- Tau et al, Constraining Cluster Physics with the Shape of X-ray Clusters:
Comparison of Local X-ray Clusters versus LCDM Clusters [arXiv:1201.2168v1]
- Molnar et al, Merging Galaxy Clusters: Offset Between the Sunyaev-Zel'dovich Effect and X-ray Peaks
[arXiv:1201.1533v1]
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