- Tipo de expresión:
- Doctorado: Propuesta de dirección de tesis doctoral/temática para solicitar ayuda predoctoral ("Hosting Offer o EoI")
- Ámbito:
- Materiales cuánticos
- Área:
- Materia
- Modalidad:
- Ayudas para la formación de profesorado universitario (FPU)
- Referencia:
- FPU 2023
- Centro o Instituto:
- INSTITUTO DE CIENCIA DE MATERIALES DE MADRID
- Investigador:
- TOBIAS PASCAL STAUBER
- Palabras clave:
-
- superconductividad, grafeno, nematicidad
FPU2023-Electronic phases
The discovery of correlated insulating states and superconductivity in twisted bilayer graphene has had a tremendous impact on the condensed matter community [1]. One striking and astonishing result of the initial experiments has been the similarity of the phase diagram to the one of high-Tc copper-oxide superconductors. This analogy has further been manifested by the observation of a strange metal regime above the superconducting dome [2].
A highly debated question is the pairing mechanism of the superconducting phase in twisted bilayer graphene and related systems and our work based on the Kohn-Luttinger mechanism is a very solid proposal to explain the superconductivity of twisted moire systems [3]. We further accounted also for the linear temperature dependence of the conductivity of the normal phase [4], putting forward a comprehensive theory of the behavior about half-filling of the first moiré band of the twisted bilayer. Last, our proposal of Ising superconductivity in twisted trilayer [5] is also confirmed by other approaches.
[1] Y. Cao et al., Nature 556, 80 EP (2018), Y. Cao et al., Nature 556, 43 EP (2018).
[2] Y. Cao et al., Phys. Rev. Lett. 124, 076801 (2020).
[3] J. González and T. Stauber, Phys. Rev. Lett. 122, 026801 (2019).
[4] J. González and T. Stauber, Phys. Rev. Lett. 124, 186801 (2020), T. Stauber and J. González, Nature Physics 18, 619–620 (2022).
[5] J. González and T. Stauber, Nature Communications 14, 2746 (2023).