2017
DOI: 10.1103/physrevd.95.094502
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Third-order perturbative lattice and complex Langevin analyses of the finite-temperature equation of state of nonrelativistic fermions in one dimension

Abstract: We analyze the pressure and density equations of state of unpolarized non-relativistic fermions at finite temperature in one spatial dimension. For attractively interacting regimes, we perform a third-order lattice perturbation theory calculation, assess its convergence properties by comparing with hybrid Monte Carlo results (there is no sign problem in this regime), and demonstrate agreement with real Langevin calculations. For repulsive interactions, we present lattice perturbation theory results as well as … Show more

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Cited by 33 publications
(51 citation statements)
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“…We thank A. C. Loheac for discussions and for the perturbation theory data of Ref. [36], W. J. Porter for discussions in the early stages of the project, and J. Levinsen and C. Ordóñez for comments on the manuscript. We also thank the authors of Ref.…”
mentioning
confidence: 99%
“…We thank A. C. Loheac for discussions and for the perturbation theory data of Ref. [36], W. J. Porter for discussions in the early stages of the project, and J. Levinsen and C. Ordóñez for comments on the manuscript. We also thank the authors of Ref.…”
mentioning
confidence: 99%
“…This prevents the use of traditional Monte Carlo methods, since they use e −S as a probability weight. One alternative in this scenario is the complex Langevin technique, which has been used to study theories with sign problems such as those with repulsive interactions [24] as well as polarized [25,26] and massimbalanced fermions [27] (see Ref. [28] for a review), finite density QCD with staggered quarks [29][30][31][32], random matrix models [33,34], rotating bosons [35,36], superstringinspired matrix models [37], among others.…”
Section: Many-body Methodsmentioning
confidence: 99%
“…2 (right panel) (which appears in our work of Ref. [6]) is the first time such a calculation was carried out. From the density, by integration over βµ, we obtain the pressure, which is shown in Fig.…”
Section: Unpolarized Systemmentioning
confidence: 99%
“…Details of the lattice perturbation theory and CL formalisms, as well as further comments on the results for the unpolarized system, can be found in Ref. [6]. Additionally, we provide a first estimate for the finite-temperature particle density of the polarized Fermi gas at unitarity in Sec.…”
Section: Introductionmentioning
confidence: 99%
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