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The effects of disorder in dimerized quantum magnets in mean field approximations

Abdulla RakhimovInstitute of Nuclear Physics, Tashkent 100214, UzbekistanMardonov, ShuhratSamarkand State University, 703004 Samarkand, UzbekistanE. Ya. ShermanDepartment of Physical Chemistry, University of Basque Country UPV/EHU, 48080 Bilbao, SpainA. SchillingPhysik-Institut, University of Zürich, Winterthurerstrasse 190, 8057 Zürich, Switzerland
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Abstract

We study theoretically the effects of disorder on Bose–Einstein condensates (BEC) of bosonic triplon quasiparticles in doped dimerized quantum magnets. The condensation occurs in a magnetic field, where the concentration of bosons in the random potential is sufficient to form the condensate. The effect of doping is partly modeled by a δ-correlated distribution of impurities, which (i) leads to a uniform renormalization of the system parameters and (ii) produces disorder in the system with renormalized parameters. This approach can explain qualitatively the available magnetization data on the Tl1−xKxCuCl3 compound taken as an example. In addition to the magnetization, we found that the speed of the Bogoliubov mode has a maximum as a function of x. No evidence of the pure Bose glass phase has been found in the BEC regime.

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