User menu

Influence of Magnetic-fields On the 2-dimensional Electron-transport in Weakly Disordered Fluorine-intercalated Graphite Fibers

Bibliographic reference Piraux, Luc ; Bayot, Vincent ; Issi, JP. ; Dresselhaus, MS. ; Endo, M. ; et. al. Influence of Magnetic-fields On the 2-dimensional Electron-transport in Weakly Disordered Fluorine-intercalated Graphite Fibers. In: Physical Review. B, Condensed Matter, Vol. 45, no. 24, p. 14315-14320 (1992)
Permanent URL
  1. Piraux L., Bayot V., Issi J. P., Dresselhaus M. S., Endo M., Nakajima T., Electrical and thermal properties of fluorine-intercalated graphite fibers, 10.1103/physrevb.41.4961
  2. Ohana I., Palchan I., Yacoby Y., Davidov D., Selig H., Raman scattering of stage 2 graphite fluorine intercalation compounds, 10.1016/0038-1098(85)90703-3
  3. Abrahams E., Anderson P. W., Licciardello D. C., Ramakrishnan T. V., Scaling Theory of Localization: Absence of Quantum Diffusion in Two Dimensions, 10.1103/physrevlett.42.673
  4. Altshuler B.L., Aronov A.G., Zero bias anomaly in tunnel resistance and electron-electron interaction, 10.1016/0038-1098(79)90967-0
  5. Altshuler B. L., Aronov A. G., Lee P. A., Interaction Effects in Disordered Fermi Systems in Two Dimensions, 10.1103/physrevlett.44.1288
  6. Hikami S., Larkin A. I., Nagaoka Y., Spin-Orbit Interaction and Magnetoresistance in the Two Dimensional Random System, 10.1143/ptp.63.707
  7. Bergmann Gerd, Weak localization in thin films, 10.1016/0370-1573(84)90103-0
  8. P. Peters R., Bergmann Gerd, Dependence of the Phase-Coherence Time in Weak Localization on Electronic Mean Free Path and Film Thickness, 10.1143/jpsj.54.3478
  9. Belitz D., Das Sarma S., Inelastic phase-coherence time in thin metal films, 10.1103/physrevb.36.7701
  10. di Vittorio S. L., Dresselhaus M. S., Endo M., Nakajima T., Magnetic-field dependence of the hole-hole interaction in fluorine-intercalated graphite fibers, 10.1103/physrevb.43.1313
  11. Endo Morinobu, Oberlin Agnès, Koyama Tsuneo, High Resolution Electron Microscopy of Graphitizable Carbon Fiber Prepared by Benzene Decomposition, 10.1143/jjap.16.1519
  12. J. P. Issi, Ann. Phys. (Paris), 11, 165 (1986)
  13. Piraux L., Bayot V., Gonze X., Michenaud J. -P., Issi J. -P., Effect of a magnetic field on weak localization and Coulomb interactions in acceptor graphite intercalation compounds, 10.1103/physrevb.36.9045
  14. Piraux L., Weak localization and coulomb interaction in graphite intercalation compounds and related materials, 10.1557/jmr.1990.1285
  15. Gijs M, Haesendonck C Van, Bruynseraede Y, Electron localisation and interaction effects in quasi-two-dimensional Mg films, 10.1088/0305-4608/16/9/015
  16. Altshuler B L, Aronov A G, Khmelnitsky D E, Effects of electron-electron collisions with small energy transfers on quantum localisation, 10.1088/0022-3719/15/36/018
  17. Lawrence W. E., Meador A. B., Calculation of the order-parameter relaxation times in superconducting aluminum, 10.1103/physrevb.18.1154
  18. Bergmann G., Eliashberg Functionα2(E)F(E)and the Strong-Coupling Behavior of a Disordered Superconductor, 10.1103/physrevb.3.3797
  19. Schmid Albert, On the dynamics of electrons in an impure metal, 10.1007/bf01677931
  20. Takayama Hajime, Electron-phonon interaction in impure metals, 10.1007/bf01391591
  21. B. T. Kelly, Physics of Graphite (1981)