Abstract
Recent experiments have revealed a variety of symmetry-breaking phenomena inherent to the pseudogap state of underdoped cuprates. The authors consider emergent phases in a model where the interaction between fermions and antiferromagnetic fluctuations affects two extended regions of the Fermi surface instead of isolated `hot spots.' Surprisingly, this leads to a rich phase diagram including various charge and staggered bond current orders. The uncovered phases share some features with the experimental signatures of the pseudogap state. The results open up perspectives for new types of particle-hole order in itinerant systems with strong spin fluctuations.
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