Six-loop expansion study of three-dimensional O(n)× O(m) spin models

Abstract

The Landau-Wilson field theory with O(n)× O(m) symmetry which describes the critical thermodynamics of frustrated spin systems with noncollinear and noncoplanar ordering is analyzed in 4 - dimensions within the minimal subtraction scheme in the six-loop approximation. The expansions for marginal dimensionalities of the order parameter nH(m,4-), n-(m,4-), n+(m,4-) separating different regimes of critical behavior are extended up to 5 terms. Concrete series with coefficients in decimals are presented for m=\2, …, 6\. The diagram of stability of nontrivial fixed points, including the chiral one, in (m,n) plane is constructed by means of summing up of corresponding expansions using various resummation techniques. Numerical estimates of the chiral critical exponents for several couples \m,n\ are also found. Comparative analysis of our results with their counterparts obtained earlier within the lower-order approximations and by means of alternative approaches is performed. It is confirmed, in particular, that in physically interesting cases n=2, m=2 and n=2, m=3 phase transitions into chiral phases should be first-order.