Samuel Belliard, Rodrigo A. Pimenta, Nikita A. Slavnov
Published 2021-03-23Version 1
We calculate the scalar product of Bethe states of the XXZ spin-$\frac{1}{2}$ chain with general integrable boundary conditions. The off-shell equations satisfied by the transfer matrix and the off-shell Bethe vectors allow one to derive a linear system for the scalar product of off-shell and on-shell Bethe states. We show that this linear system can be solved in terms of a compact determinant formula that involves the Jacobian of the transfer matrix eigenvalue and certain q-Pochhammer polynomials of the boundary couplings.
Multiple integral formulae for the scalar product of on-shell and off-shell Bethe vectors in SU(3)-invariant models
The scalar product of XXZ spin chain revisited. Application to the ground state at $Δ=-1/2$
Correlation functions of the XXZ spin chain with the twisted boundary condition
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