Physics – High Energy Physics – High Energy Physics - Lattice
Scientific paper
2005-06-03
Phys.Rev. D72 (2005) 094503
Physics
High Energy Physics
High Energy Physics - Lattice
RevTex, 26 pages, 20 eps figures, revised version
Scientific paper
10.1103/PhysRevD.72.094503
In this work we perform a detailed numerical analysis of (1+1) dimensional lattice $\phi^4$ theory. We explore the phase diagram of the theory with two different parameterizations. We find that symmetry breaking occurs only with a negative mass-squared term in the Hamiltonian. The renormalized mass $m_R$ and the field renormalization constant $Z$ are calculated from both coordinate space and momentum space propagators in the broken symmetry phase. The critical coupling for the phase transition and the critical exponents associated with $m_R$, $Z$ and the order parameter are extracted using a finite size scaling analysis of the data for several volumes. The scaling behavior of $Z$ has the interesting consequence that $<\phi_R>$ does not scale in 1+1 dimensions. We also calculate the renormalized coupling constant $ \lambda_R$ in the broken symmetry phase. The ratio $ \lambda_R/m_R^2 $ does not scale and appears to reach a value independent of the bare parameters in the critical region in the infinite volume limit.
De Asit K.
Harindranath Avaroth
Maiti Jyotirmoy
Sinha Tilak
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