Scaling behavior of the energy gap of spin-1/2 AF-Heisenberg chain in both uniform and staggered fields

Abstract

We have studied the energy gap of the 1D AF-Heisenberg model in the presence of both uniform (H) and staggered (h) magnetic fields using the exact diagonalization technique. We have found that the opening of the gap in the presence of a staggered field scales with h, where =(H) is the critical exponent and depends on the uniform field. With respect to the range of the staggered magnetic field, we have identified two regimes through which the H-dependence of the real critical exponent (H) can be numerically calculated. Our numerical results are in good agreement with the results obtained by theoretical approaches.

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