Exploring spin-orbital models with dipolar fermions in zigzag optical lattices
Ultracold dipolar spinor fermions in zig-zag–type optical lattices can mimic spin-orbital
models relevant in solid-state systems, as transition-metal oxides with partially filled d levels …
models relevant in solid-state systems, as transition-metal oxides with partially filled d levels …
Exploring spin-orbital models with dipolar fermions in zigzag optical lattices
G Sun, G Jackeli, L Santos, T Vekua - Physical Review B, 2012 - pure.mpg.de
Ultracold dipolar spinor fermions in zig-zag-type optical lattices can mimic spin-orbital
models relevant in solid-state systems, as transition-metal oxides with partially filled d levels …
models relevant in solid-state systems, as transition-metal oxides with partially filled d levels …
Exploring spin-orbital models with dipolar fermions in zigzag optical lattices
G Sun, G Jackeli, L Santos, T Vekua - Physical Review B, 2012 - ui.adsabs.harvard.edu
Ultracold dipolar spinor fermions in zig-zag-type optical lattices can mimic spin-orbital
models relevant in solid-state systems, as transition-metal oxides with partially filled d levels …
models relevant in solid-state systems, as transition-metal oxides with partially filled d levels …
Exploring spin-orbital models with dipolar fermions in zig-zag optical lattices
G Sun, G Jackeli, L Santos, T Vekua - arXiv preprint arXiv:1112.5082, 2011 - arxiv.org
Ultra-cold dipolar spinor fermions in zig-zag type optical lattices can mimic spin-orbital
models relevant in solid-state systems, as transition-metal oxides with partially filled d-levels …
models relevant in solid-state systems, as transition-metal oxides with partially filled d-levels …