Vortex Solutions of Bilayer Quantum Hall Systems at υ=1/2

Xianjun Huang
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引用次数: 0

Abstract

We investigate the static vortex solutions of a bilayer quantum Hall state at the Landau-level filling factor υ = 1/2. This work is based on the ZHK model, which is an effective field theory including ChernSimons gauge interactions. We deduce the dimensionless nonlinear equations of motion for vortices possessing cylindrically symmetry, and analyze the asymptotical behaviors of solutions. Additionally, we analyze the values of critical coupling constants under the self-dual condition, and obtain the self-dual equations. Finally, vortices of type (0, 1), (0, −1), (1, −1) and (−1, −1) are solved with numerical methods. We reach the conclusion that vortex of type (1, −1) is unstable, which will decay to (1, 0) and (0, −1). The vortices of type (0, −1) and (−1, −1) are self-dual solutions from numerical results.
双层量子霍尔系统在υ=1/2时的涡旋解
研究了朗道能级填充因子υ = 1/2时双层量子霍尔态的静态涡旋解。这项工作是基于ZHK模型,这是一个有效的场理论,包括ChernSimons规范相互作用。我们推导了具有圆柱对称的涡的无量纲非线性运动方程,并分析了解的渐近行为。此外,我们分析了自对偶条件下的临界耦合常数值,得到了自对偶方程。最后,用数值方法求解了类型为(0,1)、(0,−1)、(1,−1)和(−1,−1)的涡。我们得出结论,(1,−1)型涡是不稳定的,它将衰变为(1,0)和(0,−1)。(0,−1)和(−1,−1)型涡是数值结果的自对偶解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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