@article {5701,
title = {Magnetic exchange interactions in BaMn(2)As(2): A case study of the J(1)-J(2)-J(c) Heisenberg model},
journal = {Physical Review B},
volume = {84},
number = {9},
year = {2011},
note = {Johnston, D. C. McQueeney, R. J. Lake, B. Honecker, A. Zhitomirsky, M. E. Nath, R. Furukawa, Y. Antropov, V. P. Singh, YogeshDepartment of Energy-Basic Energy Sciences[DE-AC02-07CH11358]; US Department of Energy[W-7405-ENG-36]; Deutsche Forschungsgemeinschaft[HO 2325/4-2]; French National Research Agency[ANR-09-Blanc-0211]We are grateful to Andreas Kreyssig for insights about spin wave theory and to Ferenc Niedermayer for confirming the calculation of chi(T) (Ref. 52) in Eq. (97). Work at the Ames Laboratory was supported by the Department of Energy-Basic Energy Sciences under Contract No. DE-AC02-07CH11358. R.J.M. would like to thank F. Trouw for assistance with Pharos. The work has benefitted from the use of the Los Alamos Neutron Science Center (LANSE) at Los Alamos National Laboratory. LANSCE is funded by the US Department of Energy under Contract No. W-7405-ENG-36. The work of A.H. was supported by the Deutsche Forschungsgemeinschaft through a Heisenberg Fellowship (Grant No. HO 2325/4-2). M.E.Z. acknowledges Grant No. ANR-09-Blanc-0211 SupraTetrafer from the French National Research Agency.85Amer physical socCollege pk824qs},
month = {09},
pages = {094445},
type = {Article},
abstract = {BaMn(2)As(2) is unique among BaT(2)As(2) compounds crystallizing in the body-centered-tetragonal ThCr(2)Si(2) structure, which contain stacked square lattices of 3d transition metal T atoms, since it has an insulating large-moment (3.9 mu B/Mn) G-type (checkerboard) antiferromagnetic (AF) ground state. We report measurements of the anisotropic magnetic susceptibility chi versus temperature T from 300 to 1000 K of single crystals of BaMn(2)As(2), and magnetic inelastic neutron scattering measurements at 8 K and (75)As nuclear magnetic resonance (NMR) measurements from 4 to 300 K of polycrystalline samples. The Neel temperature determined from the chi(T) measurements is T(N) = 618(3) K. The measurements are analyzed using the J(1)-J(2)-J(c) Heisenberg model for the stacked square lattice, where J(1) and J(2) are, respectively, the nearest-neighbor (NN) and next-nearest-neighbor intraplane exchange interactions and J(c) is the NN interplane interaction. Linear spin wave theory for G-type AF ordering and classical and quantum Monte Carlo simulations and molecular field theory calculations of chi(T) and of the magnetic heat capacity C(mag)(T) are presented versus J(1), J(2), and J(c). We also obtain band-theoretical estimates of the exchange couplings in BaMn(2)As(2). From analyses of our chi(T), NMR, neutron scattering, and previously published heat capacity data for BaMn(2)As(2) on the basis of the above theories for the J(1)-J(2)-J(c) Heisenberg model and our band-theoretical results, our best estimates of the exchange constants in BaMn(2)As(2) are J(1) approximate to 13 meV, J(2)/J(1) approximate to 0.3, and J(c)/J(1) approximate to 0.1, which are all antiferromagnetic. From our classical Monte Carlo simulations of the G-type AF ordering transition, these exchange parameters predict T(N) approximate to 640 K for spin S = 5/2, in close agreement with experiment. Using spin wave theory, we also utilize these exchange constants to estimate the suppression of the ordered moment due to quantum fluctuations for comparison with the observed value and again obtain S = 5/2 for the Mn spin.},
keywords = {ANTIFERROMAGNET, ba, crystal, iron pnictides, sb, SPIN-LATTICE RELAXATION, superconductivity, susceptibility, wave theory, zero-temperature},
isbn = {1098-0121},
doi = {10.1103/PhysRevB.84.094445},
author = {Johnston, D. C. and McQueeney, R. J. and Lake, B. and Honecker, A. and Zhitomirsky, M. E. and Nath, R. and Furukawa, Y. and Antropov, V. P. and Singh, Y.}
}