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Forschungspapier (14)

  1. Forschungspapier
    L. D. Xian, D. M. Kennes, N. Tancogne-Dejean, M. Altarelli, and A. Rubio, "Multi-flat bands and strong correlations in Twisted Bilayer Boron Nitride", (2018), pp. 16.
  2. Forschungspapier
    F. Buchholz, I. Theophilou, S. E. B. Nielsen, M. Ruggenthaler, and A. Rubio, "Reduced Density-Matrix Approach to Strong Matter-Photon Interaction", (2018), pp. 39.
  3. Forschungspapier
    S. E. B. Nielsen, C. Schäfer, M. Ruggenthaler, and A. Rubio, "Dressed-Orbital Approach to Cavity Quantum Electrodynamics and Beyond", (2018), pp. 13.
  4. Forschungspapier
    S. Latini, E. Ronca, U. de Giovannini, H. Hübener, and A. Rubio, "Ab-initio Exciton-polaritons: Cavity control of Dark Excitons in two dimensional Materials", (2018), pp. 8.
  5. Forschungspapier
    A. Castro, H. Appel, and A. Rubio, "Optimal control theory for quantum electrodynamics: an initial state problem", (2018), pp. 20.
  6. Forschungspapier
    E. Baldini, A. Dominguez, T. Palmieri, O. Cannelli, A. Rubio, P. Ruello, and M. Chergui, "Exciton Control in a Room-Temperature Bulk Semiconductor with Coherent Strain Pulses", (2018), pp. 27.
  7. Forschungspapier
    J. Flick, D. Welakuh, M. Ruggenthaler, H. Appel, and A. Rubio, "Light-Matter Response Functions in Quantum-Electrodynamical Density-Functional Theory: Modifications of Spectra and of the Maxwell Equations", (2018), pp. 27.
  8. Forschungspapier
    A. Trabattoni, S. Trippel, U. de Giovannini, J. F. Olivieri, J. Wiese, T. Mullins, J. Onvlee, S.-K. Son, B. Frusteri, A. Rubio, and J. Küpper, "Setting the clock of photoelectron emission through molecular alignment", (2018), pp. 9.
  9. Forschungspapier
    P. Cudazzo, E. Müller, C. Habenicht, M. Gatti, H. Berger, M. Knupfer, A. Rubio, and S. Huotari, "Electron-energy-loss and time-dependent density functional theory study on the plasmon dispersion in 2H-NbS2", (2017), pp. 9.
  10. Forschungspapier
    Guillermo Albareda, Ali Abedi, Ivano Tavernelli, and Angel Rubio, "Universal Steps Guiding the Branching of the Nuclear Probability Density over Nonadiabatic Electronic Transitions", (2015), pp. 6.
  11. Forschungspapier
    J. Alberdi-Rodriguez, A. Rubio, M. Oliveira, A. Charalampidou, and D. Folias, "Memory Optimization for the Octopus Scientific Code", (2015), pp. 15.
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