Add to ORKGIn recent years, Hagedorn states have been used to explain the equilibrium and transport properties of a hadron gas close to the QCD critical temperature. These massive resonances are shown to lower h/s to near the AdS/CFT limit close to the phase transition. A comparison of the Hagedorn model to recent lattice results is made and it is found that the hadrons can reach chemical equilibrium almost immediately, well before the chemical freeze-out temperatures found in thermal fits for a hadron gas without Hagedorn states
No bootstrap assumption is needed to derive the exponential growth of the Hagedorn hadron mass spect...
In the context of the Hagedorn temperature half-centenary I describe our understanding of the hot ph...
Equilibrium properties of infinite relativistic hadron matter are investigated using the Ultrarelati...
Abstract. Quick chemical equilibration times of hadrons within a hadron gas are explained dynamicall...
One important question in relativistic heavy ion collisions is if hadrons, specifically anti-hyperon...
The Hagedorn temperature, T_H is determined from the number of hadronic resonances including all mes...
A scenario of heavy resonances, called massive Hagedorn states, is proposed which exhibits a fast (t...
In this work, we have studied the isothermal compressibility (κT) as a function of temperature, bary...
In order to fully understand the new state of matter formed in heavy ion collisions, it is vital to ...
Abstract. We show how the measured particle ratios at RHIC can be used to provide non-trivial inform...
We examine the stability of hadron resonance gas models by extending them to include undiscovered re...
The Hagedorn temperature, TH is determined from the number of hadronic resonances including all meso...
The physical processes behind the production of light nuclei in heavy ion collisions are unclear. Th...
No bootstrap assumption is needed to derive the exponential growth of the Hagedorn hadron mass spect...
We study in this paper mechanisms of hadron melting based on the spectral representation of hadronic...
No bootstrap assumption is needed to derive the exponential growth of the Hagedorn hadron mass spect...
In the context of the Hagedorn temperature half-centenary I describe our understanding of the hot ph...
Equilibrium properties of infinite relativistic hadron matter are investigated using the Ultrarelati...
Abstract. Quick chemical equilibration times of hadrons within a hadron gas are explained dynamicall...
One important question in relativistic heavy ion collisions is if hadrons, specifically anti-hyperon...
The Hagedorn temperature, T_H is determined from the number of hadronic resonances including all mes...
A scenario of heavy resonances, called massive Hagedorn states, is proposed which exhibits a fast (t...
In this work, we have studied the isothermal compressibility (κT) as a function of temperature, bary...
In order to fully understand the new state of matter formed in heavy ion collisions, it is vital to ...
Abstract. We show how the measured particle ratios at RHIC can be used to provide non-trivial inform...
We examine the stability of hadron resonance gas models by extending them to include undiscovered re...
The Hagedorn temperature, TH is determined from the number of hadronic resonances including all meso...
The physical processes behind the production of light nuclei in heavy ion collisions are unclear. Th...
No bootstrap assumption is needed to derive the exponential growth of the Hagedorn hadron mass spect...
We study in this paper mechanisms of hadron melting based on the spectral representation of hadronic...
No bootstrap assumption is needed to derive the exponential growth of the Hagedorn hadron mass spect...
In the context of the Hagedorn temperature half-centenary I describe our understanding of the hot ph...
Equilibrium properties of infinite relativistic hadron matter are investigated using the Ultrarelati...