Why does the thermal model for hadron production in heavy ion collisions work?
Publication
, Journal Article
Müller, B; Schäfer, A
December 10, 2017
The yields for hadrons and even light nuclei measured at midrapidity in relativistic heavy ion collisions are found to be dictated exclusively by their thermal Boltzmann factor for a common temperature of approximately 155 MeV. The reason for the validity of the thermal model description is widely discussed. Here, we offer a new type of argument in its favor.
Duke Scholars
Publication Date
December 10, 2017
Citation
APA
Chicago
ICMJE
MLA
NLM
Müller, B., & Schäfer, A. (2017). Why does the thermal model for hadron production in heavy ion collisions
work?
Müller, Berndt, and Andreas Schäfer. “Why does the thermal model for hadron production in heavy ion collisions
work?,” December 10, 2017.
Müller B, Schäfer A. Why does the thermal model for hadron production in heavy ion collisions
work? 2017 Dec 10;
Müller, Berndt, and Andreas Schäfer. Why does the thermal model for hadron production in heavy ion collisions
work? Dec. 2017.
Müller B, Schäfer A. Why does the thermal model for hadron production in heavy ion collisions
work? 2017 Dec 10;
Publication Date
December 10, 2017