Hidden Orbital Order in URu2Si2

Abstract

When matter is cooled from high temperatures, collective instabilities develop amongst its constituent particles that lead to new kinds of order. An anomaly in the specific heat is a classic signature of this phenomenon. Usually the associated order is easily identified, but sometimes its nature remains elusive. The heavy fermion metal URu2Si2 is one such example, where the order responsible for the sharp specific heat anomaly at T0=17 K has remained unidentified despite more than seventeen years of effort. In URu2Si2, the coexistence of large electron-electron repulsion and antiferromagnetic fluctuations in URu2Si2 leads to an almost incompressible heavy electron fluid, where anisotropically paired quasiparticle states are energetically favored. In this paper we use these insights to develop a detailed proposal for the hidden order in URu2Si2. We show that incommensurate orbital antiferromagnetism, associated with circulating currents between the uranium ions, can account for the local fields and entropy loss observed at the 17 K transition; furthermore we make detailed predictions for neutron scattering measurements.

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