Add to ORKGWe exploit a new theory of gravity proposed by Finzi, which gives stronger interaction at large scales, to study the thermodynamic description of galaxy clusters. We employ a statistical model to deduce various thermodynamics equations of state. In addition, we analyze the behavior of clustering parameter in comparison to its standard (Newtonian) counterpart. The general distribution function and its behavior with varying strength of clustering parameter are also studied. The possibility of phase transition is also investigated and observed that a phase transition is possible though hierarchically.Comment: 17 pages, 27 figure
Galaxy clusters are the most massive structures in the universe and, in the hierarchical pattern of ...
We follow the evolution of the galaxy population in a ΛCDM cosmology by means of high-resolution N-b...
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Understanding the formation of the large scale structure is one of the frontiers ofmodern cosmologic...
Abstract: We study the phase transitions occurring in the gravitational clustering of galaxies on th...
We study the effect of nonfactorizable background geometry on the thermodynamics of the clustering o...
We analyse the two-point and marked correlation functions (mCFs) of haloes and galaxies in three var...
Using cosmological simulations of galaxy cluster regions from The Three Hundred project we study the...
One of the most challenging problem in modern cosmology is the understanding of large scale structur...
This thesis addresses the distributions of baryonic matter on three scales: the outskirts of the gas...
Galaxy clusters are the largest gravitationally-bound objects in the Universe, their unparalleled si...
Using cosmological simulations of galaxy cluster regions from THE THREE HUNDRED project we study the...
Abstract: Galaxy clusters, located at the nodes of the large-scale structure of the Universe, are va...
Galaxy clusters are the most massive structures in the universe and, in the hierarchical pattern of ...
We follow the evolution of the galaxy population in a ΛCDM cosmology by means of high-resolution N-b...
In this paper, we analyze the effects of expansion on large scale structure formation in our Univers...
We discuss the galaxy clustering based on thermodynamics and statistical mechanics in the expanding ...
We present a retuning of the IllustrisTNG baryonic physics model which can be used to run large-box ...
Understanding the formation of the large scale structure is one of the frontiers ofmodern cosmologic...
Abstract: We study the phase transitions occurring in the gravitational clustering of galaxies on th...
We study the effect of nonfactorizable background geometry on the thermodynamics of the clustering o...
We analyse the two-point and marked correlation functions (mCFs) of haloes and galaxies in three var...
Using cosmological simulations of galaxy cluster regions from The Three Hundred project we study the...
One of the most challenging problem in modern cosmology is the understanding of large scale structur...
This thesis addresses the distributions of baryonic matter on three scales: the outskirts of the gas...
Galaxy clusters are the largest gravitationally-bound objects in the Universe, their unparalleled si...
Using cosmological simulations of galaxy cluster regions from THE THREE HUNDRED project we study the...
Abstract: Galaxy clusters, located at the nodes of the large-scale structure of the Universe, are va...
Galaxy clusters are the most massive structures in the universe and, in the hierarchical pattern of ...
We follow the evolution of the galaxy population in a ΛCDM cosmology by means of high-resolution N-b...
In this paper, we analyze the effects of expansion on large scale structure formation in our Univers...