Ground-state energy and frustration of the Sherrington-Kirkpatrick model and related models
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Exact ground states are calculated for the Sherrington-Kirkpatrick (SK) spin-glass containing up to N=90 spins. A ground-state energy per spin $e^{\infty}_0 = - 0.7637 \pm 0.0004$ is found from the $N$ dependence of the misfit parameter, which is a measure of frustration of the system. The results are compared with those of two related models, which can be introduced by replacing all interactions of the SK model by ferromagnetic or antiferromagnetic ones of the same strengths. A parameter $x$ is introduced, which describes the fraction of antiferromagnetic interactions in these types of models. From the $x$ dependence of finite models it is concluded, that the the SK model $(x=0.5)$ assigns a transition between a ferromagnetic state $(x<0.5)$ to a spin-glass state $(x>0.5)$.
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Cited by 2 Pith papers
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Estimates of ground state energies for the quantum SK and 2D-EA models, using deGennes-Suzuki-Kubo mean-field annealing dynamics
Numerical estimates of ground state energies for quantum SK model (N up to 40000) and 2D-EA model obtained via deGennes-Suzuki-Kubo mean-field annealing dynamics starting from paramagnetic phase.
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Estimates of ground state energies for the quantum SK and 2D-EA models, using deGennes-Suzuki-Kubo mean-field annealing dynamics
Numerical estimates of ground state energies for the SK spin glass (N=40000) and 2D EA model obtained via deGennes-Suzuki-Kubo mean-field annealing dynamics starting from quantum paramagnetic state.
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