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Now you are in the subtree of High-Temperatures Superconductivity project. 

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  • Fig. 1a Schematic diagrams of the nominal Fermi surface for LSCO in one quadrant of reciprocal space. Arrow indicates the nodal direction.
  • Fig. 1a Schematic diagrams of the nominal Fermi surface for LSCO in one quadrant of reciprocal space. Arrow indicates the nodal direction.
  • fig_fs_sketch_2.jpeg
  • Fig 1b. Schematic diagrams of the nominal Fermi surface for LSCO in one quadrant of reciprocal space. Arrow indicates the antinodal direction
  • Fig 1b. Schematic diagrams of the nominal Fermi surface for LSCO in one quadrant of reciprocal space. Arrow indicates the antinodal direction
  • fig_fs_sketch_1.jpeg
  • Fig 2. Spectral function in LSCO for $x=0$ (bottom) to 0.15 (top) at the nodal point (a) and antinodal region (b). Yoshida et al
  • Fig 2. Spectral function in LSCO for x=0 (bottom) to 0.15 (top) at the nodal point (a) and antinodal region (b). Yoshida et al
  • fig_LSCO_ARPES_N_AN.jpeg
  • Fig 3. Spectral weight as a function of $E-E_{\rm F}$ and {\bf k}, along high-symmetry directions measured by ARPES on LSCO for various dopings. The high-symmetry wave vectors are labelled in units that assume $a=1$. The thin lines through the data correspond to tight-binding calculations. From Yoshida {\it et al.}
  • Fig 3. Spectral weight as a function of EEF and {\bf k}, along high-symmetry directions measured by ARPES on LSCO for various dopings. The high-symmetry wave vectors are labelled in units that assume a=1. The thin lines through the data correspond to tight-binding calculations. From Yoshida {\it et al.}
  • fig_LSCO_ARPES_disp.jpeg
  • Fig. 4. (a)-(e) Spectral weight along the Fermi surface (in the first quadrant) measured by ARPES on LSCO crystals for various dopings, from Yoshida {\it et al.} \cite{yosh06}. (f) Location of the Fermi surface for various dopings determined from the measurements.
  • Fig. 4. (a)-(e) Spectral weight along the Fermi surface (in the first quadrant) measured by ARPES on LSCO crystals for various dopings, from Yoshida {\it et al.} \cite{yosh06}. (f) Location of the Fermi surface for various dopings determined from the measurements.
  • fig_LSCO_ARPES_fsvsx.jpeg