Dataset for: "Contribution to understanding the phase structure of strong interaction matter: Lee-Yang edge singularities from lattice QCD"
Dimopoulos P, Dini L, Di Renzo F, Goswami J, Nicotra G, Schmidt C, Singh S, Zambello K, Ziesché F (2022)
Bielefeld University.
Datenpublikation
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DataforPlots.tar.gz
1.21 MB
Creator
Dimopoulos, Petros;
Dini, LorenzoUniBi;
Di Renzo, Frances;
Goswami, JishnuUniBi 
;
Nicotra, GuidoUniBi;
Schmidt, ChristianUniBi ;
Singh, Simran;
Zambello, Kevin;
Ziesché, FelixUniBi
;
Nicotra, GuidoUniBi;
Schmidt, ChristianUniBi ;
Singh, Simran;
Zambello, Kevin;
Ziesché, FelixUniBiAbstract / Bemerkung
This Data Publication contains all necessary data files to reproduce all figures in [Phys.Rev.D 105 (2022) 3, 034513](https://journals.aps.org/prd/abstract/10.1103/PhysRevD.105.034513), [arXiv:2110.15933](https://arxiv.org/abs/2110.15933).
Stichworte
Lattice QCD at nonzero temperature and density;
Quark Glon Plasma;
QCD phase diagram
Erscheinungsjahr
2022
Copyright und Lizenzen
Page URI
https://pub.uni-bielefeld.de/record/2961179
Zitieren
Dimopoulos P, Dini L, Di Renzo F, et al. Dataset for: "Contribution to understanding the phase structure of strong interaction matter: Lee-Yang edge singularities from lattice QCD". Bielefeld University; 2022.
Dimopoulos, P., Dini, L., Di Renzo, F., Goswami, J., Nicotra, G., Schmidt, C., Singh, S., et al. (2022). Dataset for: "Contribution to understanding the phase structure of strong interaction matter: Lee-Yang edge singularities from lattice QCD". Bielefeld University. https://doi.org/10.4119/unibi/2961179
Dimopoulos, Petros, Dini, Lorenzo, Di Renzo, Frances, Goswami, Jishnu, Nicotra, Guido, Schmidt, Christian, Singh, Simran, Zambello, Kevin, and Ziesché, Felix. 2022. Dataset for: "Contribution to understanding the phase structure of strong interaction matter: Lee-Yang edge singularities from lattice QCD". Bielefeld University.
Dimopoulos, P., Dini, L., Di Renzo, F., Goswami, J., Nicotra, G., Schmidt, C., Singh, S., Zambello, K., and Ziesché, F. (2022). Dataset for: "Contribution to understanding the phase structure of strong interaction matter: Lee-Yang edge singularities from lattice QCD". Bielefeld University.
Dimopoulos, P., et al., 2022. Dataset for: "Contribution to understanding the phase structure of strong interaction matter: Lee-Yang edge singularities from lattice QCD", Bielefeld University.
P. Dimopoulos, et al., Dataset for: "Contribution to understanding the phase structure of strong interaction matter: Lee-Yang edge singularities from lattice QCD", Bielefeld University, 2022.
Dimopoulos, P., Dini, L., Di Renzo, F., Goswami, J., Nicotra, G., Schmidt, C., Singh, S., Zambello, K., Ziesché, F.: Dataset for: "Contribution to understanding the phase structure of strong interaction matter: Lee-Yang edge singularities from lattice QCD". Bielefeld University (2022).
Dimopoulos, Petros, Dini, Lorenzo, Di Renzo, Frances, Goswami, Jishnu, Nicotra, Guido, Schmidt, Christian, Singh, Simran, Zambello, Kevin, and Ziesché, Felix. Dataset for: "Contribution to understanding the phase structure of strong interaction matter: Lee-Yang edge singularities from lattice QCD". Bielefeld University, 2022.
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DataforPlots.tar.gz
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2022-02-11T10:19:30Z
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Contribution to understanding the phase structure of strong interaction matter: Lee-Yang edge singularities from lattice QCD
Dimopoulos P, Dini L, Di Renzo F, Goswami J, Nicotra G, Schmidt C, Singh S, Zambello K, Ziesché F (2022)
Physical Review D 105(3): 034513.
Dimopoulos P, Dini L, Di Renzo F, Goswami J, Nicotra G, Schmidt C, Singh S, Zambello K, Ziesché F (2022)
Physical Review D 105(3): 034513.
arXiv: 
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