$text{SU}(3)$$t$-$J$链的基态相图

arXiv - PHYS - Strongly Correlated Electrons Pub Date : 2024-09-14 DOI:arxiv-2409.09344

Junhao Zhang, Jie Hou, Jie Lou, Yan Chen

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引用次数: 0

摘要

与$\text{SU}(2)$的情况不同，具有$\text{SU}(N)$对称性的费米子系统预计会表现出新奇的物理现象，比如外来子的形成。利用密度矩阵重正化群技术，我们得到了密度为$n<1$的$\text{SU}(3)$ $t$-$J$ 链的基态相图。基态相图包括卢廷格液体、以自旋间隙为特征的扩展卢瑟-埃默里液体以及相分离态。我们通过测量自旋间隙、可压缩性、各种相关函数和结构因子来定量评估这三种相态的特征。我们进一步研究了扩展的卢瑟-埃默里液相，发现了分子超流体准长程有序。分子超流的机理是三个$text{SU}(3)$费米子在不完全连接的位置上的组合。据此，我们可以推测在相同的填充机制下，具有较大$N$值的$\text{SU}(N)$ $t$-$J$链模型的行为。

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Ground State Phase Diagram of $\text{SU}(3)$ $t$-$J$ Chain

Distinct from the $\text{SU}(2)$ case, the fermionic systems with $\text{SU}(N)$ symmetry are expected to exhibit novel physics, such as exotic singlet formation. Using the density matrix renormalization group technique, we obtain the ground state phase diagram of the $\text{SU}(3)$ $t$-$J$ chain for density $n<1$. The ground state phase diagram includes the Luttinger liquid, the extended Luther-Emery liquid characterized by a spin gap, and the phase separation state. We quantitatively assess the characteristics of the three phases by measuring spin gap, compressibility, various correlation functions and structure factors. We further study the extended Luther-Emery liquid phase and discover molecular superfluid quasi-long-range order. The mechanism of the molecular superfluid is the combination of three $\text{SU}(3)$ fermions on sites that are not completely connected. Accordingly, we can speculate the behavior of the $\text{SU}(N)$ $t$-$J$ chain model with larger $N$ values, operating within the same filling regime.

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arXiv - PHYS - Strongly Correlated Electrons

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