Physics – Condensed Matter – Strongly Correlated Electrons
Scientific paper
2010-06-08
J.Phys.Condens.Matter 23 (2011)055602
Physics
Condensed Matter
Strongly Correlated Electrons
8 pages, 10 figures
Scientific paper
A systematic study of the effect of magnetic field (h) on Hubbard model has been carried out at half filling within dynamical mean field theory. In agreement with previous studies, we find a zero temperature itinerant metamagnetic transition, reflected in the discontinuous changes in magnetization as well as in the hysteresis, from a paramagnetic (PM) metallic state to a polarized quasi-ferromagnetic (QFM) state, at intermediate and large interaction strength ($U$). The jump in magnetization vanishes smoothly with decreasing interaction strength, and at a critical $U$, the transition becomes continuous. The region of `coexistence' of the PM and QFM solutions in the field-$U$ plane obtained in this study agrees quantitatively with recent numerical renormalization group calculations, thus providing an important benchmark. We highlight the changes in dynamics and quasiparticle weight across this transition. The effective mass increases sharply as the transition is approached, exhibiting a cusp-like singularity at the critical field,and decreases with field monotonically beyond the transition. We conjecture that the first order metamagnetic transition is a result of the competition between Kondo screening, that tries to quench the local moments, and Zeeman coupling, which induces polarization and hence promotes local moment formation. A comparison of our theoretical results with experiments on $^{3}He$ indicate that, a theory of $^{3}He$ based on the half-filled Hubbard model places it in a regime of intermediate interaction strength.
Parihari Debabrata
Taraphder A.
Vidhyadhiraja N. S.
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