Artículos de revistas
Translation-Invariant Parent Hamiltonians of Valence Bond Crystals
Fecha
2017-04Registro en:
Huerga, Daniel; Greco, Andres Francisco; Gazza, Claudio Javier; Muramatsu, Alejandro; Translation-Invariant Parent Hamiltonians of Valence Bond Crystals; American Physical Society; Physical Review Letters; 118; 16; 4-2017; 1-5
0031-9007
1079-7114
CONICET Digital
CONICET
Autor
Huerga, Daniel
Greco, Andres Francisco
Gazza, Claudio Javier
Muramatsu, Alejandro
Resumen
We present a general method to construct translation-invariant and SU(2) symmetric antiferromagnetic parent Hamiltonians of valence bond crystals (VBCs). The method is based on a canonical mapping transforming S=1/2 spin operators into a bilinear form of a new set of dimer fermion operators. We construct parent Hamiltonians of the columnar and the staggered VBCs on the square lattice, for which the VBC is an eigenstate in all regimes and the exact ground state in some region of the phase diagram. We study the departure from the exact VBC regime upon tuning the anisotropy by means of the hierarchical mean field theory and exact diagonalization on finite clusters. In both Hamiltonians, the VBC phase extends over the exact regime and transits to a columnar antiferromagnet (CAFM) through a window of intermediate phases, revealing an intriguing competition of correlation lengths at the VBC-CAFM transition. The method can be readily applied to construct other VBC parent Hamiltonians in different lattices and dimensions.