24. T. Honma & P.-H. Hor;
“Unified Electronic Phase Diagram for
Hole-Doped High-Tc Cuprates”,
Physical Review B 77, 184520 (2008) (arXiv:0801.1537)
Citing
Articles ( I checked.) ;
17. G. Sordi, K. Haule & A. -M. S. Tremblay,
“Mott physics and first-order transition between two metals in the
normal state phase diagram of the two-dimensional Hubbard model”
arXib1102.0463S
16.
Tatsuya Honma & Pei Herng Hor
“Universal scaling
of the c-axis dc
conductivity for underdoped high-temperature cuprate superconductors”
Solid
State Communications 150, 2314 (2010).
15.
Tatsuya Honma & Pei Herng Hor
“Comparison of the hole concentration determined by transport
measurement for the hole-doped cuprate superconductors”
Physica C
470, 191 (2010)
14. Eran
Amit & Amit Keren;
“Critical-doping universality for cuprate superconductors: Oxygen
nuclear-magnetic-resonance investigation of
Ca(x)La(1-x)Ba(1.75-x)La(0.25+x)Cu(3)O(y)”
eprint
arXiv:1011.0818A
13.
Sumilan Banerjee, T. V. Ramakrishnan, Chandan Dasgupta;
“Ginzburg-Landau Approach to High-Temperature Superconductivity in
the Cuprates : I. Basics”
eprint
arXiv:1007.3287B
12. Michael R. Peterson & B. Sriram Shastry,
“The Kelvin Formula for Thermopower”
Physical Review B 82, 195105 (2010). eprint arXiv:1001.3423
11. N.
Kristoffel & P. Rubin,
“Nodal superconductivity and antinodal pseudogap in cuprate superconductors”
Physics Letters A 374, 70, (2009).
10. J. Ashkenazi
“A theory
for the high-Tc cuprtes: anomalous normal-state and spectroscopic, phase
diagram, and pairing”
eprint arXiv:0912.4735
09. Z. Wu & P.H. Hor
“Growth and hole density control through equilibrium oxygen annealing of optimally doped Y1‑xCaxBa2Cu3O7‑δ single crystals”
Supercond. Sci. & Tech. 22, 105012 (2009).
08. P. Phillips, T-P. Choy, R. G. Leigh
“Mottness in high-temperature copper-oxide superconductors”
Reports on Progress in Physics 72, 036501 (2009).
07.R. McQueeney et
al.
“Anisotropic Three-Dimensional Magnetism in CaFe2As2
Phys. Rev. Lett. 101, 227205 (2008)
06. S.
Chakraborty, D. Galanakis, P. Phillips
“Emergence of Particle-Hole Symmetry near Optimal Doping in High-Temperature Copper Oxide Superconductors”
Physical Review B 82, 214503 (2010). arXiv:0807.2854).
05. J. Ashkenazi
“A unified theory for the
cuprates, iron-based and similar superconducting systems: non-Fermi-liquid to Fermi-liquid
crossover, low-energy and waterfall anomalies”
Journal of Superconductivity and
Novel Magnetism 22,
3 (2009) (2008arXiv0811.4561)
04. X. Xu, H. Hu, T. Yamada, H. Chen, and Y. Wang
“Lifetime distribution of spontaneous
emission from line antennas in two-dimensional quasi-periodic photonic crystals”
Journal of Physics: Condensed Matter 20, 125210 (2008)
03. J. Ashkenazi
“A unified theory for the
cuprates, iron-based and similar superconducting systems: application for spin
and charge excitations in the hole-doped cuprates”
(2008arXiv0809.4237)
02. R. J. McQueeney et al.,
“Anisotropic
three-dimensional magnetism in CaFe2As2”
Phys. Rev. Lett. 101, 227205 (2008)
(2008arXiv0809.1410)
01. J. A. Wilson,
“Evolution
with hole doping of the electronic excitation spectrum in the cuprate
superconductors”
Journal
of Physics: Condensed Matter 20,
385210 (2008) (2008arXiv0804.3045).
Last updated : Nov. 06/10