Birgit Wehefritz scite author profile

This is the first of three papers dealing with the XX finite quantum chain with arbitrary, not necessarily hermitian, boundary terms. This extends previous work where the periodic or diagonal boundary terms were considered. In order to find the spectrum and wave-functions an auxiliary quantum chain is examined which is quadratic in fermionic creation and annihilation operators and hence diagonalizable. The secular equation is in general complicated but several cases were found when it can be solved analytically. For these cases the ground-state energies are given. The appearance of boundary states is also discussed and in view to the applications considered in the next papers, the one and two-point functions are expressed in terms of Pfaffians.

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Phase diagram of the non-Hermitian asymmetricXXZspin chain

Albertini

Dahmen

Wehefritz

1996

J. Phys. A: Math. Gen.

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Spectra of non-Hermitian quantum spin chains describing boundary induced phase transitions

Bilstein

Wehefritz

1997

J. Phys. A: Math. Gen.

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The spectrum of the non-hermitian asymmetric XXZ-chain with additional non-diagonal boundary terms is studied. The lowest lying eigenvalues are determined numerically. For the ferromagnetic and completely asymmetric chain that corresponds to a reaction-diffusion model with input and outflow of particles the smallest energy gap correponding directly to the inverse of the temporal correlation length shows the same properties as the spatial correlation length of the stationary state. For the antiferromagnetic chain with both boundary terms, we find a conformal invariant spectrum where the partition function corresponds to the one of a Coulomb gas with only magnetic charges shifted by a purely imaginary and a lattice-length dependent constant. Similar results are obtained by studying a toy model that can be diagonalized analytically in terms of free fermions.

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The free energy singularity of the asymmetric six-vertex model and the excitations of the asymmetric XXZ chain

Albertini¹,

Dahmen²,

Wehefritz³

1997

Nuclear Physics B

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