期刊论文详细信息
Lattice effects on Laughlin wave functions and parent Hamiltonians
Article
关键词: QUANTUM HALL STATES;    CHIRAL SPIN LIQUID;   
DOI  :  10.1103/PhysRevB.94.245104
来源: SCIE
【 摘 要 】

We investigate lattice effects on wave functions that are lattice analogs of bosonic and fermionic Laughlin wave functions with number of particles per flux nu = 1/q in the Landau levels. These wave functions are defined analytically on lattices with mu particles per lattice site, where mu may be different than nu. We give numerical evidence that these states have the same topological properties as the corresponding continuum Laughlin states for different values of q and for different fillings mu. These states define, in particular, particle-hole symmetric lattice fractional quantum Hall states when the lattice is half filled. On the square lattice it is observed that for q <= 4 this particle-hole symmetric state displays the topological properties of the continuum Laughlin state at filling fraction nu = 1/q, while for larger q there is a transition towards long-range ordered antiferromagnets. This effect does not persist if the lattice is deformed from a square to a triangular lattice, or on the kagome lattice, in which case the topological properties of the state are recovered. We then show that changing the number of particles while keeping the expression of these wave functions identical gives rise to edge states that have the same correlations in the bulk as the reference lattice Laughlin states but a different density at the edge. We derive an exact parent Hamiltonian for which all these edge states are ground states with different number of particles. In addition this Hamiltonian admits the reference lattice Laughlin state as its unique ground state of filling factor 1/q. Parent Hamiltonians are also derived for the lattice Laughlin states at other fillings of the lattice, when mu <= 1/q or mu >= 1 - 1/q and when q = 4 also at half filling.

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