Investigation of the magnetic phase diagram of the 2D ferrimagnetic J ₁–J ₂ model

Abstract: The zero-temperature phase diagram and spin dynamics of the 2D ferrimagnetic J 1–J 2 model with (S 1, S 2) = (1/2, 1) are investigated using the time-dependent cluster mean-field theory (t-CMFT). The t-CMFT enables the investigation of the quantum-mechanical as well as semi-classical phase diagram and spin dynamics by control of the entanglement. For the characterization of the ferrimagnetic system, the magnetization, the energy per atom, … Show more

“…Then, it remains to be clarified what is meant by the semi-classical limit. In the case of the quantum mechanical description of ferrimagnets, entanglement plays an important role [40,45]. In general, most spin states are entangled.…”

“…More than 100 publications have been published about this system. While the antiferromagnetic J 1 −J 2 model has received much attention, the ferrimagnetic J 1 −J 2 model has received almost no attention [35][36][37][38][39][40]. The ferrimagnetic J 1 −J 2 model is far more interesting than the antiferromagnetic J 1 −J 2 model.…”

“…The ferrimagnetic J 1 −J 2 model is far more interesting than the antiferromagnetic J 1 −J 2 model. The reason is that there are effective three exchange interactions in the ferrimagnetic J 1 −J 2 model with a checkerboard-like arrangement of the two spin varieties [37,40]. The nearest neighbor exchange interaction J 1 is between the two different spin types (inter sublattice interaction).…”

“…This inequality in the next-nearest neighbor exchange interactions leads to a non-collinear state. A detailed description of the quantum mechanical ferrimagnetic J 1 −J 2 Heisenberg model and its semiclassical limit at zero temperature has been given in [40]. This publication extends the phase diagram by taking the temperature into account.…”

“…Previous publications [37,40] have investigated the effect of frustration in the ferrimagnetic J 1 −J 2 model. For this purpose, the strength of the next-neighbor exchange interaction J 2 was systematically changed, and the zero-temperature phase diagram was investigated.…”

Investigation of the temperature phase diagram of the 2D semi-classical ferrimagnetic J1−J2 model

“…Then, it remains to be clarified what is meant by the semi-classical limit. In the case of the quantum mechanical description of ferrimagnets, entanglement plays an important role [40,45]. In general, most spin states are entangled.…”

“…More than 100 publications have been published about this system. While the antiferromagnetic J 1 −J 2 model has received much attention, the ferrimagnetic J 1 −J 2 model has received almost no attention [35][36][37][38][39][40]. The ferrimagnetic J 1 −J 2 model is far more interesting than the antiferromagnetic J 1 −J 2 model.…”

“…The ferrimagnetic J 1 −J 2 model is far more interesting than the antiferromagnetic J 1 −J 2 model. The reason is that there are effective three exchange interactions in the ferrimagnetic J 1 −J 2 model with a checkerboard-like arrangement of the two spin varieties [37,40]. The nearest neighbor exchange interaction J 1 is between the two different spin types (inter sublattice interaction).…”

“…This inequality in the next-nearest neighbor exchange interactions leads to a non-collinear state. A detailed description of the quantum mechanical ferrimagnetic J 1 −J 2 Heisenberg model and its semiclassical limit at zero temperature has been given in [40]. This publication extends the phase diagram by taking the temperature into account.…”

“…Previous publications [37,40] have investigated the effect of frustration in the ferrimagnetic J 1 −J 2 model. For this purpose, the strength of the next-neighbor exchange interaction J 2 was systematically changed, and the zero-temperature phase diagram was investigated.…”

Investigation of the temperature phase diagram of the 2D semi-classical ferrimagnetic J1−J2 model