6533b7dbfe1ef96bd12713de
RESEARCH PRODUCT
FINITE-SIZE CORRECTIONS TO CORRELATION FUNCTION AND SUSCEPTIBILITY IN 2D ISING MODEL
J. Kaupužssubject
Multiplicative functionGeneral Physics and AstronomyStatistical and Nonlinear PhysicsExpected valueTransfer matrixComputer Science ApplicationsAmplitudeComputational Theory and MathematicsQuantum electrodynamicsLattice (order)ExponentIsing modelScalingMathematical PhysicsMathematical physicsMathematicsdescription
Transfer matrix calculations of the critical two-point correlation function in 2D Ising model on a finite-size [Formula: see text] lattice with periodic boundaries along 〈11〉 direction are extended to L = 21. A refined analysis of the correlation function in 〈10〉 crystallographic direction at the distance r = L indicates the existence of a nontrivial finite-size correction of a very small amplitude with correction-to-scaling exponent ω < 2 in agreement with our foregoing study for L ≤ 20. Here we provide an additional evidence and show that amplitude a of the multiplicative correction term 1 + aL-ωis about -3.5·10-8if ω = 1/4 (the expected value). We calculate also the susceptibility for L ≤ 18 in order to compare our numerical estimates for the constant background contribution with the known very precise value and to look for possible nontrivial corrections to scaling. The numerical analysis reveals a perfect agreement for the background term, as well as shows that the nontrivial correction term, detected by our analysis in the correlation function, likely cancels in the susceptibility.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2006-08-01 | International Journal of Modern Physics C |