Spin-orbit density wave induced hidden topological order in URu2Si2
نویسنده
چکیده
The conventional order parameters in quantum matters are often characterized by 'spontaneous' broken symmetries. However, sometimes the broken symmetries may blend with the invariant symmetries to lead to mysterious emergent phases. The heavy fermion metal URu2Si2 is one such example, where the order parameter responsible for a second-order phase transition at Th=17.5 K has remained a long-standing mystery. Here we propose via ab-initio calculation and effective model that a novel spin-orbit density wave in the f-states is responsible for the hidden-order phase in URu2Si2. The staggered spin-orbit order spontaneously breaks rotational, and translational symmetries while time-reversal symmetry remains intact. Thus it is immune to pressure, but can be destroyed by magnetic field even at T=0 K, that means at a quantum critical point. We compute topological index of the order parameter to show that the hidden order is topologically invariant. Finally, some verifiable predictions are presented.
منابع مشابه
Hidden topological order in the heavy fermion metal URu2Si2
We present a novel order parameter for the hidden order state of URu2Si2. We show via ab-initio calculation and low-energy effective tight-binding model that an incommensurate Fermi surface nesting in the partiallyfilled f -states renders a spin-orbit coupling density wave in the hidden-order state. An observable quantity for this order parameter is the polarized total angular momentum ∆mJ=±2, ...
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