About the charge transfer in the graphene lattice

The charged particles motion in graphene under the influence of an external electric field in the frame on the nonlocal quantum hydrodynamic description is considered. With the help of the numerical solution of a system of nonlocal hydrodynamic equations the dependence of the soliton structures on the external electric field is investigated

quantum non-local hydrodynamics, theory of transport processes in graphene, solitons.

1. Садовский М.В. Псевдощель в высокотемпературных сверхпроводниках // Успехи физ. наук. 2001. Т. 171. № 5. С. 539-564.

2. Kohsaka Y., Hanaguri T., Azuma M., Takano M, Davis J.C., Takagi H. Visualization of the emergence of the pseudogap state and the evolution to superconductivity in a lightly hole-doped Mott insulator // Nature Physics. 2012. V. 8. № 7. P. 534-538. doi:10.1038/nphys2321.

3. Chang J, Blackburn E., Holmes A.T., Christensen N.B., Larsen J., Mesot J, Ruixing Liang, Bonn D.A., Hardy W.N., Watenphul A., v. Zimmermann M., Forgan E.M., Hayden S.M. Direct observation of competition between superconductivity and charge density wave order in YBa2Cu3Oy. 2012. ArXiv: 1206.4333v2[cond-mat.supr-con].

4. Алексеев Б.В. К нелокальной теории высокотемпературной сверхпроводимости // Вестник МИТХТ. 2012. Т. 7. № 3. С. 3-21.

5. Алексеев Б.В., Овчинникова И.В. Гидродинамическое описание движения электронов в кристаллической решетке графена // Вестник МИТХТ. 2013. Т. 8. № 5. С. 20-39.

6. Pathak S., Shenoy V.B., Baskaran G. Possibility of high Tc superconductivity in doped graphene. 2008. ArXiv: 0809.0244v1[cond-mat.supr-con].

7. Savini G., Ferrari A.C., Giustino F. Doped graphane: a prototype high-Tc electron-phonon superconductor. 2010. АrXiv:1002.0653v1[cond-mat.mtrl-sci].

8. Loktev V.M., Turkowski V. Possible high-temperature superconductivity in multilayer graphane: Can the cuprates be beaten? 2011. АrXiv:1102.4596v1[cond-mat.supr-con].

9. Белоненко М.Б., Лебедев Н.Г., Пак А.В., Янюшкина Н.Н. Спонтанное поперечное поле в примесном графене // Журн. техн. физики. Т. 81. Вып. 8. С. 64-69.