Inhomogeneous condensation in the Gross-Neveu model in noninteger spatial dimensions . II. Nonzero temperature and chemical potential

Koenigstein A, Pannullo L (2024)
Physical Review D 109(5): 056015.

Zeitschriftenaufsatz | Veröffentlicht | Englisch
 
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Koenigstein, Adrian; Pannullo, LaurinUniBi
Abstract / Bemerkung
We continue previous investigations of the (inhomogeneous) phase structure of the Gross-Neveu model in a noninteger number of spatial dimensions (1≤d<3) in the limit of an infinite number of fermion species (N→∞) at (non)zero chemical potential μ [L. Pannullo, Inhomogeneous condensation in the Gross-Neveu model in noninteger spatial dimensions 1≤d<3, Phys. Rev. D 108, 036022 (2023)]. In this work, we extend the analysis from zero to nonzero temperature T. The phase diagram of the Gross-Neveu model in 1≤d<3 spatial dimensions is well-known under the assumption of spatially homogeneous condensation with both a symmetry broken and a symmetric phase present for all spatial dimensions. In d=1 one additionally finds an inhomogeneous phase, where the order parameter, the condensate, is varying in space. Similarly, phases of spatially varying condensates are also found in the Gross-Neveu model in d=2 and d=3, as long as the theory is not fully renormalized, i.e., in the presence of a regulator. For d=2, one observes that the inhomogeneous phase vanishes, when the regulator is properly removed (which is not possible for d=3 without introducing additional parameters). In the present work, we use the stability analysis of the symmetric phase to study the presence (for 1≤d<2) and absence (for 2≤d<3) of these inhomogeneous phases and the related moat regimes in the fully renormalized Gross-Neveu model in the μ, T-plane. We also discuss the relation between “the number of spatial dimensions” and “studying the model with a finite regulator” as well as the possible consequences for the limit d→3.
Erscheinungsjahr
2024
Zeitschriftentitel
Physical Review D
Band
109
Ausgabe
5
Art.-Nr.
056015
ISSN
2470-0010
eISSN
2470-0029
Page URI
https://pub.uni-bielefeld.de/record/2987808

Zitieren

Koenigstein A, Pannullo L. Inhomogeneous condensation in the Gross-Neveu model in noninteger spatial dimensions . II. Nonzero temperature and chemical potential. Physical Review D. 2024;109(5): 056015.
Koenigstein, A., & Pannullo, L. (2024). Inhomogeneous condensation in the Gross-Neveu model in noninteger spatial dimensions . II. Nonzero temperature and chemical potential. Physical Review D, 109(5), 056015. https://doi.org/10.1103/PhysRevD.109.056015
Koenigstein, Adrian, and Pannullo, Laurin. 2024. “Inhomogeneous condensation in the Gross-Neveu model in noninteger spatial dimensions . II. Nonzero temperature and chemical potential”. Physical Review D 109 (5): 056015.
Koenigstein, A., and Pannullo, L. (2024). Inhomogeneous condensation in the Gross-Neveu model in noninteger spatial dimensions . II. Nonzero temperature and chemical potential. Physical Review D 109:056015.
Koenigstein, A., & Pannullo, L., 2024. Inhomogeneous condensation in the Gross-Neveu model in noninteger spatial dimensions . II. Nonzero temperature and chemical potential. Physical Review D, 109(5): 056015.
A. Koenigstein and L. Pannullo, “Inhomogeneous condensation in the Gross-Neveu model in noninteger spatial dimensions . II. Nonzero temperature and chemical potential”, Physical Review D, vol. 109, 2024, : 056015.
Koenigstein, A., Pannullo, L.: Inhomogeneous condensation in the Gross-Neveu model in noninteger spatial dimensions . II. Nonzero temperature and chemical potential. Physical Review D. 109, : 056015 (2024).
Koenigstein, Adrian, and Pannullo, Laurin. “Inhomogeneous condensation in the Gross-Neveu model in noninteger spatial dimensions . II. Nonzero temperature and chemical potential”. Physical Review D 109.5 (2024): 056015.
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2024-03-13T06:53:58Z
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