Competing Theories of Competing Orders in Cuprates.
E. Dalla
Torre
One of the key challenges in the field of
high-temperature superconductivity is understanding
the nature of fermionic quasiparticles. Experiments
consistently demonstrate the existence of a second energy scale, distinct from
the d-wave superconducting gap, that persists above
the transition temperature into the "pseudogap"
phase. One common class of models relates this energy scale to the
quasiparticle gap due to a competing order, such as the incommensurate
"checkerboard" order observed in scanning tunneling microscopy (STM)
and resonant elastic X-ray scattering (REXS). Here we show that these
experiments are better described by identifying the second energy scale with
the inverse lifetime of quasiparticles. We develop a minimal phenomenological
model that allows us to quantitatively describe STM and REXS experiments and
discuss their relation with photoemission spectroscopy. Our study refocuses
questions about the nature of the pseudogap phase to
the study of the origin of inelastic scattering.
REFERENCE: Emanuele G. Dalla
Torre, Yang He, David Benjamin, Eugene Demler,
"Exploring Quasiparticles in High-Tc Cuprates Through
Photoemission, Tunneling, and X-ray Scattering Experiments",
arxiv: 1312.0616
Host: Prof. N. Andrei