Ana Luiza C. Pereira

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1. C.J. Páez, K. DeLello, D. Le, A.L.C. Pereira and E. R. Mucciolo                                      “Disorder effect on the anisotropic resistivity of phosphorene determined by a tight-binding model”  Physical. Review B, 94, 165419 (2016).                                                          

2. ​C.J. Páez, D.A. Bahamon, A.L.C. Pereira and P.A. Schulz                                             “Zigzag phosphorene nanoribbons: one-dimensional resonant channels in two-dimensional atomic crystals” Beilstein Journal of Nanotechnology 7, 1983 (2016).                                                              

3. C. J. Páez, J. N. B. Rodrigues, A. L. C. Pereira, N. M. R. Peres.

   "Electronic transport across linear defects in graphene" Physical Review B 92, 045426 (2015). arXiv

    

4. Paez, C. J. ; Bahamon, D. A. ; Pereira, Ana L.C.
   “Current flow in biased bilayer graphene: Role of sublattices” Physical Review. B, 90, 125426 (2014). arXiv
    

5. Pereira, A. L. C., Lewenkopf, C. H., Mucciolo, E. R
   “Correlated random hopping disorder in graphene at high magnetic fields: Landau level broadening and localization properties”.  Physical Review B, 84 165406 (2011). arXiv
    

6. Bahamon, D. A., Pereira, A. L. C., Schulz, P. A.
   “Third edge for a graphene nanoribbon: a tight-binding model calculation”. Physical Review B 83, 155436 (2011). arXiv
    

7. Bahamon, D. A., Pereira, A. L. C., Schulz, P. A.
   “Tunnable resonances due to vacancies in graphene nanoribbons”. Physical Review B 82, 165438 (2010). arXiv
    

8. Pereira, A. L. C.
   “Splitting of critical energies in the n=0 Landau level of graphene”, New Journal of Physics 11, 095019 (2009). arXiv
    

9. Pereira, A. L. C., Schulz, P. A.
   “Graphene in the Quantum Hall Regime: Effects of Vacancies, Sublattice Polarization and Disorder”, International Journal of Modern Physics B  23, 2618 (2009). arXiv
    

10.  Bahamon, D. A., Pereira, A. L. C., Schulz, P. A.
    “Inner and outer edge states in graphene rings: A numerical investigation”. Phys. Rev. B 79, 125414  (2009). arXiv
     

11. Rivera, P. H., Pereira, A. L. C., Schulz, P. A.
    “Quasienergy spectra of graphene dots in intense ac fields: Field anisotropy and photon-dressed quantum rings”. Physical Review B  79, 205406 (2009). arXiv
     

12. Pereira, A. L. C., Schulz, P. A.
    “Additional levels between Landau bands due to vacancies in graphene: Towards defect engineering”. Physical Review B  78, 125402 (2008). arXiv
     

13. Pereira, A. L. C., Schulz, P. A.
    “Valley polarization effects on localization in graphene Landau levels”. Physical Review B  77, 075416 (2008). arXiv
     

14. Alegre, T. P. M., Hernandez, F. G. G., Pereira, A. L. C., Medeiros-Ribeiro, G.
    “Landé g-tensor in semiconductor nanostructures”. Physical Review Letters  97, 236402 (2006). arXiv
     

15. Pereira, A. L. C., Chalker, J. T.
    “Electrostatic theory for imaging experiments on local charges in quantum Hall systems”. Physica E Low-Dimensional Systems and Nanostructures 31, 155  (2006). arXiv
     

16. Moriconi, L, Pereira, A. L. C., Schulz, P. A.
    “Hidden scaling in quantum Hall metal-insulator transition”. Physical Review B  69, 45109 (2004). arXiv
     

17. Pereira, A. L. C., Schulz, P. A.
    “Extended states floating up in a lattice model: bona fide levitation fingerprints, irrespective of the correlation length”. Physica E Low-Dimensional Systems and Nanostructures 12, 650 (2002). arXiv
     

18. Pereira, A. L. C., Schulz, P. A.
    “Quantifying the levitation picture of extended states in lattice models”. Physical Review B  66, 155323 (2002). arXiv