24. T. Honma & P.-H. Hor;

乬Unified Electronic Phase Diagram for Hole-Doped High-T_c Cuprates乭,

Physical Review B 77, 184520 (2008)  (arXiv:0801.1537)

 

Citing Articles ( I checked.) ;

 

17. G. Sordi, K. Haule & A. -M. S. Tremblay, 

乬Mott physics and first-order transition between two metals in the normal state phase diagram of the two-dimensional Hubbard model乭

arXib1102.0463S

 

16. Tatsuya Honma & Pei Herng Hor

乬Universal scaling of the c-axis dc conductivity for underdoped high-temperature cuprate superconductors乭

Solid State Communications 150, 2314 (2010).

 

15. Tatsuya Honma & Pei Herng Hor

乬Comparison of the hole concentration determined by transport measurement for the hole-doped cuprate superconductors乭

Physica C 470, 191 (2010)

 

14. Eran Amit & Amit Keren;

乬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)乭

eprint arXiv:1011.0818A

 

13. Sumilan Banerjee, T. V. Ramakrishnan, Chandan Dasgupta;

乬Ginzburg-Landau Approach to High-Temperature Superconductivity in the Cuprates : I. Basics乭

eprint arXiv:1007.3287B

 

12. Michael R. Peterson & B. Sriram Shastry,

乬The Kelvin Formula for Thermopower乭

Physical Review B 82, 195105 (2010).   eprint arXiv:1001.3423

 

11. N. Kristoffel & P. Rubin,

乬Nodal superconductivity and antinodal pseudogap in cuprate superconductors乭

Physics Letters A 374, 70, (2009).

 

10. J. Ashkenazi

乬A theory for the high-Tc cuprtes: anomalous normal-state and spectroscopic, phase diagram, and pairing乭

eprint arXiv:0912.4735

 

09. Z. Wu & P.H. Hor

乬Growth and hole density control through equilibrium oxygen annealing of optimally doped Y_1‑xCa_xBa₂Cu₃O_7‑兟 single crystals乭

Supercond. Sci. & Tech. 22, 105012 (2009).

 

08. P. Phillips, T-P. Choy, R. G. Leigh

乬Mottness in high-temperature copper-oxide superconductors乭

Reports on Progress in Physics 72, 036501 (2009).

 

07.R. McQueeney et al.

乬Anisotropic Three-Dimensional Magnetism in CaFe₂As₂

Phys. Rev. Lett. 101, 227205 (2008)

 

06. S. Chakraborty, D. Galanakis, P. Phillips

乬Emergence of Particle-Hole Symmetry near Optimal Doping in High-Temperature Copper Oxide Superconductors乭

Physical Review B 82, 214503 (2010).   arXiv:0807.2854).

 

05. J. Ashkenazi

乬A unified theory for the cuprates, iron-based and similar superconducting systems: non-Fermi-liquid to Fermi-liquid crossover, low-energy and waterfall anomalies乭

 Journal of Superconductivity and Novel Magnetism 22, 3 (2009)  (2008arXiv0811.4561)   

 

04. X. Xu, H. Hu, T. Yamada, H. Chen, and Y. Wang

乬Lifetime distribution of spontaneous emission from line antennas in two-dimensional quasi-periodic photonic crystals乭

 Journal of Physics: Condensed Matter 20, 125210 (2008)

 

03. J. Ashkenazi

乬A unified theory for the cuprates, iron-based and similar superconducting systems: application for spin and charge excitations in the hole-doped cuprates乭

 (2008arXiv0809.4237)

 

02. R. J. McQueeney et al.,

乬Anisotropic three-dimensional magnetism in CaFe₂As₂乭

Phys. Rev. Lett. 101, 227205 (2008)丂丂丂 (2008arXiv0809.1410)

 

01. J. A. Wilson,

乬Evolution with hole doping of the electronic excitation spectrum in the cuprate superconductors乭

Journal of Physics: Condensed Matter 20, 385210 (2008)  (2008arXiv0804.3045).

 

 

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Last updated : Nov. 06/10