02. T.
Honma, K. Yamaya, F. Minami & S. Takekwawa
;
“Temperature
dependence of anisotropic resistivity in the a-b plane and Hall coefficient in
a single-crystal Bi2Sr2CaCu2Oy”,
Physica C176 (1991) pp.209-215.
Citing
Articles;
21.
Charles P. Poole, Jr., Horacio A. Farach, Richard J. Creswick and Ruslan
Prozorov
Superconductivity (Second Edition) (2007) 583-632
20. N. Tsuda and D. Shimada
“Tunneling study
of the electron–phonon interaction in Bi2Sr2CaCu2O8 ”,
Physica C412-414 (2004)76-81.
19. T. Honma, M.
Tanimoto, & N. Môri ;
“Competition between oxygen re-ordering and
internal strain for the pressure effect on Hall coefficient in Y1-xCaxBa2Cu3Oy ”,
Physical Review B 63
(2001) 212506-1~212506-4.
18. C.C. Lam, K.W. Wong,
“High temperature
superconductivity in cuprate systems ”,
Advances in Condensed Matter and Materials
Research 1 (2001)1-70.
17. P. Sánchez and
H. Sánchez
“Concentration and Mobilities of Holes and
Electrons in Bi-2223 Thin Films from Analysis of Resistivity and Hall Effect
Data ”,
Physica
Status Solidi (B), 220 (2000) 531-533
16. A.A. Zakharov, M. Leandersson,
T. Balasubramanian, A. Matsuura and
“Electronlike
Fermi surface in bismuth cuprates determined by ARPES: Bulk versus surface
photoemission”,
Physical
Review B 61(2000) 15-118
16. X.H. Chen, S.Y. Li, K.Q. Ruan, Z. Sun, Q.
Cao, L.Z. Cao ;
“Effect of doping
on the anisotropic resistivity in single-crystal Bi2Sr2CaCu2O8 with
Fe, Co, and Ni”,
Phys. Rev. B60 (1999) 15339-15344
14. T. Motohashi, Y. Nakayama, T. Fujita, K.
Kitazawa, J. Shimoyama, K. Kishio;
“Systematic
decrease of resistivity anisotropy in Bi2Sr2CaCu2O8 by
Pb doping”,
Phys. Rev. B59 (1999) 14080-14086
13. D. Shimada, Y.
Shiina, N. Miyakawa and N. Tsuda
“Phonon contribution
to superconductivity of Bi2Sr2CaCu2O8”
Physica B 220, 192-194 (1996).
12. T. Honma, K. Yamaya, N. Môri and M. Tanimoto
“Effects of oxygen doping and pressure on
superconducting transition temperature in Y0.9Ca0.1Ba2Cu3Oy”
11. H. Yabuki, H. Katsuura, S.
Takahashi, H. Ishii, T. Hanyu and S. Yamaguchi
“Anisotropic Dielectric Constants of Bi2Sr2(Ca1-xYx)Cu2O8+y
(x=0.0, 0.6) Single
Japanese
Journal of Applied Physics, Volume 33, Issue 12A, pp. 6530 (1994).
10. Sergei I. Shkuratov
“Electron concentration in
YBa2Cu3O6.9 single crystals determined from
field electron emission spectroscopic measurements”
Physica C 230 (1994) 289-291.
09. M. Sugihara, K.
Numai, Y. Nakao, Y. Kikuchi and M. Ikeda
“Optical absorption of hole
doped cuprate materials”
Physica C 214 (1993) 159-168.
08. D.M. Eagles
“Analysis of resistance data on
a good ceramic sample of YBa2Cu3O(7-x)”
Japanese Journal of Applied
Physics, Part 1 32 (1993) 1077-1081.
07. J. Wu, Y.
Wang, P. Guo, H. Shen, Y. Yan and Z. Zhao,
“Elastic constants and observation of
significant elastic softening in superconducting Bi2Sr2CaCu2O8
single crystals”
Phys. Rev. B47 (1993)
2806-2811.
06. Minoru Sugihara, Kaoru
Numai, Yuri Nakao, Yukiko Kikuchi and Masayuki A. Ikeda
“Optical absorption of hole
doped cuprate materials”
Physica C 214 (1993) 159-168.
05. K. Yamaya, T. Yagi and Y.
Okajima
“Transport properties near
superconducting-nonsuperconducting phase boundary in CaLaBaCu3Oy”
04. T. Oguchi and T. Sasaki
“Fermi surface and
transport properties of YBa2Cu4O82”
Journal of Physics and
Chemistry of Solids, 53, (1992) 1525-1532
03. A.I. Romanenko and V.R. Valiakhmetov
“Relaxation process in
bismuth-based high-Tc superconductors in the range 100-200° C and
its influence on resistive and superconducting properties”
Physica C 197 (1992) 201-208.
02. Yasuhiro IYE
“Doping-, pressure-, and
temperature-dependence of hall coefficient in high Tc cuprates”,
Journal of Physics and Chemistry
of Solids,53, (1992) 1561-1568.
01. Tatsuya Honma and
“Properties of transport
carriers in Y1-xCaxBa2Cu3Oy
and Tl2Ba2CuOy”
Physica C 185-189 (1991) 1245-1246.
Last updated : Oct.19/04