A generalization of the Mermin and Wagner’s theorem [1] in a one-dimensional chain with short-range interactions containing both bilinear and biquadratic exchange [2] is presented. A magnetization per site q m is defined in terms of a statistical average over the Boltzmann distribution of the spin. Using the two point correlation function S yy (k + q) a double commutator and the Bogoliubov inequality, an upper bound is obtained taking into account the result of the double commutator in the presence of the biquadratic exchange term. Following the same steps as for the Mermin and Wagner proof, where only a bilinear exchange term is considered, it is shown that the magnetization, at any finite temperature T, at any value of the coupling constants and for any eigenvalue S, must vanish with the ordering field. Hence, it is not possible in a onedimensional chain with both bilinear and biquadratic exchange to have spontaneous order. Using the obtained double commutator D(k ) and the upper bound it is straightforward to prove the Goldstone theorem in the presence of the biquadratic exchange term under the condition that the equal time correlation function S_zz (k ) diverges. [1] N.D. Mermin and H. Wagner, Phys. Rev. Lett. 17 (1966) 1133 [2] R. Zivieri in preparation--Presentazione poster by R. Zivieri-conferenza internazionale

Absence of spontaneous order in a ferromagnetic chain with bilinear and biquadratic exchange -- Presentazione poster by R. Zivieri - Conferenza internazionale

ZIVIERI, Roberto;
2006

Abstract

A generalization of the Mermin and Wagner’s theorem [1] in a one-dimensional chain with short-range interactions containing both bilinear and biquadratic exchange [2] is presented. A magnetization per site q m is defined in terms of a statistical average over the Boltzmann distribution of the spin. Using the two point correlation function S yy (k + q) a double commutator and the Bogoliubov inequality, an upper bound is obtained taking into account the result of the double commutator in the presence of the biquadratic exchange term. Following the same steps as for the Mermin and Wagner proof, where only a bilinear exchange term is considered, it is shown that the magnetization, at any finite temperature T, at any value of the coupling constants and for any eigenvalue S, must vanish with the ordering field. Hence, it is not possible in a onedimensional chain with both bilinear and biquadratic exchange to have spontaneous order. Using the obtained double commutator D(k ) and the upper bound it is straightforward to prove the Goldstone theorem in the presence of the biquadratic exchange term under the condition that the equal time correlation function S_zz (k ) diverges. [1] N.D. Mermin and H. Wagner, Phys. Rev. Lett. 17 (1966) 1133 [2] R. Zivieri in preparation--Presentazione poster by R. Zivieri-conferenza internazionale
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11392/1718306
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