Tuesday, October 9, 2012

1210.2072 (H. Nonne et al.)

Symmetry-protected topological phases of alkaline-earth cold fermionic
atoms in one dimension
   [PDF]

H. Nonne, M. Moliner, S. Capponi, P. Lecheminant, K. Totsuka
We investigate the existence of symmetry-protected topological phases in one-dimensional alkaline-earth cold fermionic atoms with general half-integer nuclear spin I at half filling. Using complementary techniques, we show that SU(2) topological phases are stabilized where the SU(2) symmetry stems from the existence of a metastable excited state in alkaline-earth atoms. On top of these phases, we find the emergence of topological phases with enlarged SU(2I+1) symmetry which depend only on the nuclear spins degrees of freedom. The main physical properties of the latter phases are further studied using a matrix-product state approach. We find that these phases are symmetry-protected topological phases, with respect to inversion symmetry, when I=1/2,5/2,9/2..., which is directly relevant to ytterbium and strontium cold fermions.
View original: http://arxiv.org/abs/1210.2072

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