Fig. 9: Step scaling exact diagonalization results (electric basis and magnetic basis) as a function of physical distances. | Communications Physics

Fig. 9: Step scaling exact diagonalization results (electric basis and magnetic basis) as a function of physical distances.

From: Towards determining the (2+1)-dimensional quantum electrodynamics running coupling with Monte Carlo and quantum computing methods

Fig. 9

Data for set of static forces F(r1 = 1, g) (\(F({r}_{2}=\sqrt{5},g)\)) displayed as full circles (full downward-pointing triangles) and for \(F({r}_{1}=\sqrt{2},g)\) (\(F({r}_{2}=\sqrt{5},g)\)) displayed as empty circles (empty downward-pointing triangles). l = 7 has been used in the electric basis and l = 3, J = 200 in the magnetic one.

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