Zhu Zheng, Fu Liang, Sheng D N
Department of Physics, Massachusetts Institute of Technology, Cambridge, Massachusetts 02139, USA.
Department of Physics and Astronomy, California State University, Northridge, California 91330, USA.
Phys Rev Lett. 2017 Oct 27;119(17):177601. doi: 10.1103/PhysRevLett.119.177601. Epub 2017 Oct 23.
We study the phase diagram of quantum Hall bilayer systems with total filing ν_{T}=1/2+1/2 of the lowest Landau level as a function of layer distances d. Based on numerical exact diagonalization calculations, we obtain three distinct phases, including an exciton superfluid phase with spontaneous interlayer coherence at small d, a composite Fermi liquid at large d, and an intermediate phase for 1.1<d/l_{B}<1.8 (l_{B} is the magnetic length). The transition from the exciton superfluid to the intermediate phase is identified by (i) a dramatic change in the Berry curvature of the ground state under twisted boundary conditions on the two layers and (ii) an energy level crossing of the first excited state. The transition from the intermediate phase to the composite Fermi liquid is identified by the vanishing of the exciton superfluid stiffness. Furthermore, from our finite-size study, the energy cost of transferring one electron between the layers shows an even-odd effect and possibly extrapolates to a finite value in the thermodynamic limit, indicating the enhanced intralayer correlation. Our identification of an intermediate phase and its distinctive features shed new light on the theoretical understanding of the quantum Hall bilayer system at total filling ν_{T}=1.
我们研究了最低朗道能级总填充数为ν_T = 1/2 + 1/2的量子霍尔双层系统的相图,它是层间距d的函数。基于数值精确对角化计算,我们得到了三个不同的相,包括在小d时具有自发层间相干性的激子超流相、大d时的复合费米液体以及1.1 < d/l_B < 1.8(l_B是磁长度)时的中间相。从激子超流相到中间相的转变可通过以下方式识别:(i)在两层的扭曲边界条件下基态的贝里曲率发生剧烈变化;(ii)第一激发态的能级交叉。从中间相到复合费米液体的转变可通过激子超流刚度的消失来识别。此外,从我们的有限尺寸研究中,在层间转移一个电子的能量成本显示出奇偶效应,并且在热力学极限下可能外推到一个有限值,这表明层内相关性增强。我们对中间相及其独特特征的识别为在总填充数ν_T = 1时对量子霍尔双层系统的理论理解提供了新的视角。