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Critical exponent cumulants

Figure 5 Scaling analysis of the Binder cumulant B of the classical Hamiltonian, Eq. [24], at criticality (oc = 0.6, sj = 0.00111, K = 1.153) with a dynamical exponent z = 2. (Taken with permission from Ref. 64.)... Figure 5 Scaling analysis of the Binder cumulant B of the classical Hamiltonian, Eq. [24], at criticality (oc = 0.6, sj = 0.00111, K = 1.153) with a dynamical exponent z = 2. (Taken with permission from Ref. 64.)...
Fig. 7.8 Specific heat per chain C/kg plotted vs. reduced temperature kgT/e for the selfavoiding walk model shown in Fig. 7.3 but on the simple cubic lattice, for N=i2,y = 0.2,(.4B = 0,f.4A=tBB = -f, and four lattice sizes as indicated. Insert shows that extrapolation of temperatures of the specific heat maxima yields the critical temperature Tc consistent with the cumulant intersection point, if one uses the theoretical correlation length exponent v of the Ising model, v 0.63. (From Sariban and Binder. )... Fig. 7.8 Specific heat per chain C/kg plotted vs. reduced temperature kgT/e for the selfavoiding walk model shown in Fig. 7.3 but on the simple cubic lattice, for N=i2,<t>y = 0.2,(.4B = 0,f.4A=tBB = -f, and four lattice sizes as indicated. Insert shows that extrapolation of temperatures of the specific heat maxima yields the critical temperature Tc consistent with the cumulant intersection point, if one uses the theoretical correlation length exponent v of the Ising model, v 0.63. (From Sariban and Binder. )...
See other pages where Critical exponent cumulants is mentioned: [Pg.51]    [Pg.622]    [Pg.296]    [Pg.301]    [Pg.358]    [Pg.190]    [Pg.193]    [Pg.805]   
See also in sourсe #XX -- [ Pg.265 , Pg.266 , Pg.278 , Pg.280 , Pg.365 , Pg.366 ]



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