论文标题
MNO中的非绝热原子状状态稳定抗铁磁性和Mott绝缘
Nonadiabatic Atomic-like State Stabilizing Antiferromagnetism and Mott Insulation in MnO
论文作者
论文摘要
在本文中,我报告的证据表明,MNO的抗磁磁和绝缘基态是由非绝热原子样运动引起的,因为在NIO中显然是这种情况。此外,我表明Goodwin等人的实验发现。 [物理。莱特牧师。 (2006),96,〜047209]证实了我的建议:抗铁磁mNO以及抗磁性NIO中的菱形类似失真是单轨纤维基碱基中的抗抗铁磁性相的单胶碱基中,抗抗磁性相的内部失真。
In this paper I report evidence that the antiferromagnetic and insulating ground state of MnO is caused by a nonadiabatic atomic-like motion as it is evidently the case in NiO. In addition, I show that the experimental findings of Goodwin et al. [Phys. Rev. Lett. (2006), 96,~047209] corroborate my suggestion that the rhombohedral-like distortion in antiferromagnetic MnO as well as in antiferromagnetic NiO is an inner distortion of the monoclinic base-centered Bravais lattice of the antiferromagnetic phases.
