Your search keyword '"SHAN Yue"' showing total 4 results

1. Transition from band insulator to Mott insulator and formation of local moment in half-filled ionic SU($N$) Hubbard model

Author

Wang, Shan-Yue, Wang, Da, and Wang, Qiang-Hua

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

We investigate the local moment formation in the half-filled SU($N$) Hubbard model under a staggered ionic potential. As the Hubbard $U$ increases, the charge fluctuations are suppressed and eventually frozen when $U$ is above a critical value $U_c$, marking the development of well-defined local moment with integer $m$ fermions on the A-sublattice and $(N-m)$ fermions on the B-sublattice, respectively. We obtain an analytical solution for $U_c$ for the paramagnetic ground state within the variational Gutzwiller approximation and renormalized mean field theory. For large $N$, $U_c$ is found to depend on $N$ linearly with fixed $m/N$, but sublinearly with fixed $m$. The local moment formation is accompanied by a peculiar phase transition from the band insulator to the Mott insulator, where the ionic potential and quasiparticle weight are renormalized to zero simultaneously. Inside the Mott phase, the low energy physics is described by the SU($N$) Heisenberg model with conjugate representations, which is widely studied in the literature., Comment: 9 pages, 4 figures

Published

2022

2. Uncovering the molecular mechanism for dual effect of ATP on phase separation in FUS solution

Author

Ren, Chun-Lai, Shan, Yue, Zhang, Pengfei, Ding, Hong-Ming, and Ma, Yu-qiang

Subjects

Condensed Matter - Soft Condensed Matter, Physics - Biological Physics

Abstract

Recent studies reported that adenosine triphosphate (ATP) could inhibit as well as enhance the phase separation in prion-like proteins. The molecular mechanism underlying such a puzzling phenomenon remains elusive. Here, taking the fused in sarcoma (FUS) solution as an example, we comprehensively reveal the underlying mechanism by which ATP regulates phase separation by combining the semiempirical quantum mechanical method, mean-field theory, and molecular simulation. At the microscopic level, ATP acts as a bivalent or trivalent binder; at the macroscopic level, the reentrant phase separation indeed occurs in dilute FUS solutions, resulting from the ATP-concentration--dependent binding ability under different conditions. Importantly, the ATP concentration for dissolving the protein condensates is about 10 mM, agreeing with experimental results. Furthermore, from a dynamic point of view, the effect of ATP on phase separation is also non-monotonic. This work provides a clear physical description of the microscopic interaction and macroscopic phase diagram of the ATP-modulated phase separation., Comment: 24 pages, 5 figures

Published

2021

3. Critical exponents of nonlinear sigma model on Grassmann manifold $U(N)/U(m)U(N-m)$ by $1/N$ expansion

Author

Wang, Shan-Yue, Wang, Da, and Wang, Qiang-Hua

Subjects

Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Statistical Mechanics

Abstract

Motivated by the numerical evidence of a continuous phase transition between antiferromagnetic and paramagnetic phases in the half-filled SU(N) Hubbbard model, we studied its low energy nonlinear sigma model defined on Grassman manifold $U(N)/U(m)U(N-m)$ using the complex projective presentation, which is a direct generalization of the widely studied CP$^{N-1}$ model (corresponding to $m=1$). With the $1/N$ expansion technique up to the first order by fixing $m$ in space dimension $2

Published

2018

4. Four-Dimensional Mapping of Dynamic Subcortical Development of Infant Brains

Author

Chen, Liangjun, primary, Wang, Ya, additional, Wu, Zhengwang, additional, Shan, Yue, additional, Li, Tengfei, additional, Hung, Sheng-Che, additional, Zhu, Hongtu, additional, Lin, Weili, additional, Wang, Li, additional, and Li, Gang, additional

Published

2022