Finite volume corrections to higher moments are important observable quantities. They make possible to differentiate between different statistical ensembles even in the thermodynamic limit. It is shown that this property is a universal one. The classical grand canonical distribution is compared to the canonical distribution in the rigorous procedure of approaching the thermodynamic limit
We investigate simultaneous effects of finite system size and global charge conservation on thermal ...
We show that the puzzling discrepancy between the theoretical predictions and the experimental resul...
We discuss the role of the conservation laws related with U(1) internal symmetry group in the statis...
Thermal statistical models are simple and effective tool to describe particle production in high ene...
Enforcing exact conservation laws instead of average ones in statistical thermal models for relativi...
We explain how fluctuations of ratios can constrain and falsify the statistical model of particle pr...
Fluctuations of charged particle number are studied in the canonical ensemble. In the infinite volum...
The probability distributions for charged particle numbers and their densities are derived in statis...
We discuss the physics underlying event-by-event fluctuations in relativistic heavy ion collisions. ...
We will provide an overview of the physics which can be addressed by studying fluctuations and corre...
This contribution is an attempt to assess what can be learned from the remarkable success of the sta...
Event-by-event observables are compared with conventional inclusive measurements. We find that momen...
The multiplicity fluctuations are studied in the van der Waals excluded volume hadron-resonance gas ...
Attention is drawn to the role played by the size of the system in the thermodynamic analysis of par...
The properties of statistical ensembles with abelian charges close to the thermodynamic limit are di...
We investigate simultaneous effects of finite system size and global charge conservation on thermal ...
We show that the puzzling discrepancy between the theoretical predictions and the experimental resul...
We discuss the role of the conservation laws related with U(1) internal symmetry group in the statis...
Thermal statistical models are simple and effective tool to describe particle production in high ene...
Enforcing exact conservation laws instead of average ones in statistical thermal models for relativi...
We explain how fluctuations of ratios can constrain and falsify the statistical model of particle pr...
Fluctuations of charged particle number are studied in the canonical ensemble. In the infinite volum...
The probability distributions for charged particle numbers and their densities are derived in statis...
We discuss the physics underlying event-by-event fluctuations in relativistic heavy ion collisions. ...
We will provide an overview of the physics which can be addressed by studying fluctuations and corre...
This contribution is an attempt to assess what can be learned from the remarkable success of the sta...
Event-by-event observables are compared with conventional inclusive measurements. We find that momen...
The multiplicity fluctuations are studied in the van der Waals excluded volume hadron-resonance gas ...
Attention is drawn to the role played by the size of the system in the thermodynamic analysis of par...
The properties of statistical ensembles with abelian charges close to the thermodynamic limit are di...
We investigate simultaneous effects of finite system size and global charge conservation on thermal ...
We show that the puzzling discrepancy between the theoretical predictions and the experimental resul...
We discuss the role of the conservation laws related with U(1) internal symmetry group in the statis...
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