6533b862fe1ef96bd12c6bc4

RESEARCH PRODUCT

Wilsonʼs momentum shell renormalization group from Fourier Monte Carlo simulations

Andreas Tröster

subject

PhysicsRenormalizationMomentumHybrid Monte CarloHardware and ArchitectureQuantum electrodynamicsQuantum Monte CarloMonte Carlo methodGeneral Physics and AstronomyRenormalization groupCritical exponentMonte Carlo molecular modeling

description

Abstract Previous attempts to accurately compute critical exponents from Wilsonʼs momentum shell renormalization prescription suffered from the difficulties posed by the presence of an infinite number of irrelevant couplings. Taking the example of the 1d long-ranged Ising model , we calculate the momentum shell renormalization flow in the plane spanned by the coupling constants ( u 0 , r 0 ) for different values of the momentum shell thickness parameter b by simulation using our recently developed Fourier Monte Carlo algorithm. We report strong anomalies in the b-dependence of the fixed point couplings and the resulting exponents y τ and ω in the vicinity of a shell parameter b ⁎ 1 characterizing a thin but finite momentum shell. Evaluation of the exponents for this value of b yields a dramatic improvement of their numerical accuracy, indicating a strong damping of the influence of irrelevant couplings for b = b ⁎ .

yearjournalcountryeditionlanguage
2011-09-01Computer Physics Communications
https://doi.org/10.1016/j.cpc.2010.11.005