Theory of Quantum Materials and Solid State Quantum Technologies

Theory of Quantum Materials and Solid State Quantum Technologies

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    • Ramón Aguado
    • Leni Bascones
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    • Luis Brey
    • María José Calderón
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    • Leonor Chico
    • Elsa Prada
    • Pablo San-Jose
    • Jesús Avila
    • Samuel D. Escribano
    • Fernando Peñaranda
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Interactions in the 8-orbital model for twisted bilayer graphene. Phys. Rev. B 102, 155149 (2020)

Image 18 October, 2020 Maria Jose Calderon

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Previous PostCorrelated states in magic angle twisted bilayer graphene under the optical conductivity scrutiny. Quantum materials 5, 57 (2020)Next PostInvited perspective on hybrid semiconductor-superconductor qubits by Ramon Aguado  in Applied Physics Letters

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  1. In this review, we discuss the main properties of Andreev  and Majorana bound states, state-of-the-art techniques for their detection and theoretical progress beyond minimal models, including different types of robust zero modes that may emerge without a band-topological transition.

    Nature Review Physics “From Andreev to Majorana bound states in hybrid superconductor-semiconductor nanowires”

    21 December, 2020 ramon
  2. Check out Ramon’s recent invited perspective article in Applied Physics Letters on hybrid semiconductor-superconductor qubits.

    Invited perspective on hybrid semiconductor-superconductor qubits by Ramon Aguado  in Applied Physics Letters

    15 December, 2020 ramon
  3. Interactions in the 8-orbital model for twisted bilayer graphene. Phys. Rev. B 102, 155149 (2020)

    18 October, 2020 Maria Jose Calderon
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Instituto de Ciencia de Materiales de Madrid, CSIC

  • Ramón Aguado
  • Leni Bascones
    • CV
    • Publications
    • Courses
    • Talks
  • Luis Brey
  • María José Calderón
    • Publications
  • Leonor Chico
  • Elsa Prada
  • Pablo San-Jose
  • Jesús Avila
  • Samuel D. Escribano
  • Fernando Peñaranda
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