Superconductivity and special symmetry of twisted tri-layer graphene in chiral model

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Superconducting properties of twisted tri-layer graphene (TTG) are studied within the scope of the chiral model based on using the unitary matrix \(U \in SU(2)\) as an order parameter. To check the superconductor behavior of this system, the interaction with the external magnetic field \(B_0\) oriented along the graphene sheets is switched on and the internal magnetic intensity in the center is calculated as the function of the twisting angle. Vanishing of this function, due to the Meissner effect, being the important feature of the superconductivity, the corresponding dependence of the magic twisting angle on \(B_0\) is calculated. The unusual effect of re-entrant superconductivity for large values of \(B_0\) is discussed.

Sobre autores

Yuri Rybakov

RUDN University

Autor responsável pela correspondência
Email: rybakov-yup@rudn.ru
ORCID ID: 0000-0002-7744-9725
Scopus Author ID: 16454766600
Researcher ID: S-4813-2018

Professor, Doctor of Sciences in Physics and Mathematics, Professor at the Institute of Physical Research and Technologies

6 Miklukho-Maklaya St, Moscow, 117198, Russian Federation

Medina Umar

RUDN University

Email: mails4medina@gmail.com
Exchange student of the Institute of Physical Research and Technologies 6 Miklukho-Maklaya St, Moscow, 117198, Russian Federation

Bibliografia

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  4. Bolotin, K. I. et al. Ultrahigh electron mobility in suspended graphene. Solid State Comm. 146, 351-355 (2008).
  5. Lu, X. & Chen, Z. Curved

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