N\'eel temperature and reentrant H-T phase diagram of quasi-2D frustrated magnets

Abstract

In quasi-2D quantum magnets the ratio of N\'eel temperature T N to Curie-Weiss temperature CW is frequently used as an empirical criterion to judge the strength of frustration. In this work we investigate how these quantities are related in the canonical quasi-2D frustrated square or triangular J1-J2 model. Using the self-consistent Tyablikov approach for calculating T N we show their dependence on the frustration control parameter J2/J1 in the whole N\'eel and columnar antiferromagnetic phase region. We also discuss approximate analytical results. In addition the field dependence of T N(H) and the associated possible reentrance behavior of the ordered moment due to quantum fluctuations is investigated. These results are directly applicable to a class of quasi-2D oxovanadate antiferromagnets. We give clear criteria to judge under which conditions the empirical frustration ratio f=CW/T N may be used as measure of frustration strength in the quasi-2D quantum magnets.