Nontrivial behavior of the Fermi arc in the staggered-flux ordered phase
Abstract
The doping and temperature dependences of the Fermi arc in the staggered-flux, or the d-density wave, ordered phase of the t-J model are analyzed by the U(1) slave boson theory. Nontrivial behavior is revealed by the self-consistent calculation. At low doped and finite-temperature region, both the length of the Fermi arc and the width of the Fermi pocket are proportional to δ and the area of the Fermi pocket is proportional to δ2. This behavior is completely different from that at the zero temperature, where the area of the Fermi pocket becomes π2 δ. This behavior should be observed by detailed experiments of angle-resolved photoemission spectroscopy in the pseudogap phase of high-Tc cuprates if the pseudogap phase is the staggered-flux ordered phase.
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