Dergi makalesi Açık Erişim

Spin-gapped magnets with weak anisotropies I: Constraints on the phase of the condensate wave function

2021    Rakhimov, Abdulla; Khudoyberdiev, Asliddin; Rani, Luxmi; Tanatar, B.

We study the thermodynamic properties of dimerized spin-gapped quantum magnets with and without exchange anisotropy (EA) and Dzyaloshinsky and Moriya (DM) anisotropies within the mean-field approximation (MFA). For this purpose we obtain the thermodynamic potential Omega of a triplon gas taking into account the strength of DM interaction up to second order. The minimization of Omega with respect to self-energies Sigma(n) and Sigma(an) yields the equation for X-1,X-2 = Sigma(n) +/- Sigma(an) - mu, which define the dispersion of quasiparticles E-k = root epsilon(k) + X-1 root epsilon(k) + X-2 where epsilon(k) is the bare dispersion of triplons. The minimization of Omega with respect to the magnitude rho(0) and the phase Theta of triplon condensate leads to coupled equations for rho(0) and Theta. We discuss the restrictions on rho(0) and Theta imposed by these equations for systems with and without anisotropy. The requirement of dynamical stability conditions (X-1 > 0, X-2 > 0) in equilibrium, as well as the Hugenholtz-Pines theorem, particularly for isotropic Bose condensate, impose certain conditions to the physical solutions of these equations. It is shown that the phase angle of a purely homogenous Bose-Einstein condensate (BEC) without any anisotropy may only take values Theta = pi n (n=0, +/- 1, +/- 2...) while that of BEC with even a tiny DM interaction results in Theta = pi/2+2 pi n. In contrast to the widely used Hartree-Fock-Popov approximation, which allows arbitrary phase angle, our approach predicts that the phase angle may have only discrete values, while the phase of the wave function of the whole system remains arbitrary as expected. The consequences of this phase locking for interference of two Bose condensates and to their possible Josephson junction is studied. In such quantum magnets the emergence of a triplon condensate leads to a finite staggered magnetization M-perpendicular to, whose direction in the xy-plane is related to the condensate phase Theta. We also discuss the possible Kibble-Zurek mechanism in dimerized magnets and its influence on M-perpendicular to. (C) 2020 Elsevier Inc. All rights reserved.