The phase diagram of hadronic matter

Castorina P, Redlich K, Satz H (2009)
EUROPEAN PHYSICAL JOURNAL C 59(1): 67-73.

Journal Article | Published | English

No fulltext has been uploaded

Author
; ;
Abstract
We interpret the phase structure of hadronic matter in terms of the basic dynamical and geometrical features of hadrons. Increasing the density of constituents of finite spatial extension, by increasing the temperature T or the baryochemical potential mu, eventually "fills the box" and eliminates the physical vacuum. We determine the corresponding transition as a function of T and mu through percolation theory. At low baryon density, this means a fusion of overlapping mesonic bags to one large bag, while at high baryon density, hard-core repulsion restricts the spatial mobility of baryons. As a consequence, there are two distinct limiting regimes for hadronic matter. We compare our results to those from effective chiral model studies.
Publishing Year
ISSN
eISSN
PUB-ID

Cite this

Castorina P, Redlich K, Satz H. The phase diagram of hadronic matter. EUROPEAN PHYSICAL JOURNAL C. 2009;59(1):67-73.
Castorina, P., Redlich, K., & Satz, H. (2009). The phase diagram of hadronic matter. EUROPEAN PHYSICAL JOURNAL C, 59(1), 67-73.
Castorina, P., Redlich, K., and Satz, H. (2009). The phase diagram of hadronic matter. EUROPEAN PHYSICAL JOURNAL C 59, 67-73.
Castorina, P., Redlich, K., & Satz, H., 2009. The phase diagram of hadronic matter. EUROPEAN PHYSICAL JOURNAL C, 59(1), p 67-73.
P. Castorina, K. Redlich, and H. Satz, “The phase diagram of hadronic matter”, EUROPEAN PHYSICAL JOURNAL C, vol. 59, 2009, pp. 67-73.
Castorina, P., Redlich, K., Satz, H.: The phase diagram of hadronic matter. EUROPEAN PHYSICAL JOURNAL C. 59, 67-73 (2009).
Castorina, P., Redlich, K., and Satz, Helmut. “The phase diagram of hadronic matter”. EUROPEAN PHYSICAL JOURNAL C 59.1 (2009): 67-73.
This data publication is cited in the following publications:
This publication cites the following data publications:

Export

0 Marked Publications

Open Data PUB

Web of Science

View record in Web of Science®

Sources

arXiv 0807.4469

Inspire 791666

Search this title in

Google Scholar