Department of Physics, University of Texas at Austin, Austin, Texas 78712, USA.
Phys Rev Lett. 2014 Mar 28;112(12):126804. doi: 10.1103/PhysRevLett.112.126804. Epub 2014 Mar 26.
We describe a variational theory for incompressible ground states and charge gaps in the N=0 Landau level of graphene that accounts for the fourfold Landau level degeneracy and the short-range interactions that break SU(4) spin-valley invariance. Our approach explains the experimental finding that gaps at odd numerators are weak for 1<|ν|<2 and strong for 0<|ν|<1. We find that in the SU(4) invariant case the incompressible ground state at |ν|=1/3 is a three-component incompressible state, not the Laughlin state, and discuss the competition between these two states in the presence of SU(4) spin-valley symmetry-breaking terms.
我们描述了一个用于描述在石墨烯的 N=0 朗道能级中不可压缩基态和电荷能隙的变分理论,该理论考虑了四重简并的朗道能级和破坏 SU(4)自旋-谷不变性的短程相互作用。我们的方法解释了实验发现,对于 1<|ν|<2,奇数分子的能隙较弱,而对于 0<|ν|<1,能隙较强。我们发现,在 SU(4)不变的情况下,|ν|=1/3 处的不可压缩基态是一个三分量不可压缩态,而不是 Laughlin 态,并讨论了在存在 SU(4)自旋-谷对称破缺项的情况下这两种状态之间的竞争。