Density matrix renormalization group in a two-dimensional λφ4 Hamiltonian lattice model
Abstract
Density matrix renormalization group (DMRG) is applied to a (1+1)-dimensional λφ4 model. Spontaneous breakdown of discrete Z2 symmetry is studied numerically using vacuum wavefunctions. We obtain the critical coupling (λ/μ2) c=59.89 0.01 and the critical exponent β=0.1264 0.0073, which are consistent with the Monte Carlo and the exact results, respectively. The results are based on extrapolation to the continuum limit with lattice sizes L=250,500, and 1000. We show that the lattice size L=500 is sufficiently close to the the limit L∞.
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