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[Journal Articles]

Antonio H. Castro-Neto

Professor
Boston University
Professor
590 Commonwealth Avenue
Boston, MA 02215
Office: (617) 353-6116
Fax: (617) 353-9393
Email: neto
http://physics.bu.edu/~neto/

Biography

RESEARCH INTERESTS:

*Graphene
*Quantum Phase Transitions in ordered and disordered systems
*Quantum Mechanics

We study problems with direct relevance for the understanding of experimental data. It is always more fun when we face the challenge of describing how nature actually works at the microscopic level and we have to calculate physical quantities that can be directly compared to experimental results. We are particularly interested in phenomena where Quantum Mechanics plays a fundamental role.

Journal Articles

15.) V. M. Pereira, and A. H. Castro-Neto, "Strain engineering of graphene's electronic structure," Physical Review Letters, Vol. 103, July 2009, pp. 046801

14.) A. H. Castro-Neto, and F. Guinea, "Impurity-induced spin-orbit coupling in graphene," Physical Review Letters, Vol. 103, July 2009, pp. 026804

13.) E. R. Mucciolo, A. H. Castro-Neto, and C. H. Lewenkopf, "Conductance quantization and transport gaps in disordered graphene nanoribbons," arxiv, No. 0806.3777, January 2009

12.) E. V. Castro, K. S. Novoselov, S. V. Morozov, N. Peres, J. Lopes dos Santos, J. Nilsson, F. Guinea, A. K. Geim, and A. H. Castro-Neto, "Electronic properties of a biased graphene layer," arxiv, No. 0807.3348, July 2008

11.) B. Uchoa, V. N. Kotov, N. Peres, and A. H. Castro-Neto, "Localized Magnetic States in Graphene," Physical Review Letters, Vol. 101, No. 2, July 2008, pp. 026805

10.) S. V. Kusminskiy, J. Nilsson, D. K. Campbell, and A. H. Castro-Neto, "Electronic compressiblity of a graphene bilayer," Physical Review Letters, Vol. 100, March 2008, pp. 106805

9.) T. Stauber, N. Peres, and A. H. Castro-Neto, "Conductivity of suspended and non-suspended graphene at finite gate voltage," Physical Review B, Vol. 78, 2008, pp. 085418

8.) J. Sabio, J. Nilsson, and A. H. Castro-Neto, "f-Sum Rule and Unconventional Spectral Weight Transfer in Graphene," Physical Review B, Vol. 78, 2008, pp. 075410

7.) S. Y. Zhou, D. A. Siegel, A. V. Fedorov, F. El Gabaly, A. K. Schmid, A. H. Castro-Neto, and A. Lanzara, "Origin of the energy bandgap in epitaxial graphene," nature materials, Vol. 7, 2008, pp. 259-260

6.) S. V. Kusminskiy, D. K. Campbell, and A. H. Castro-Neto, "Electron-electron interactions and Dirac liquid behavior in graphene bilayers," arxiv, No. 0805.0305, 2008

5.) V. M. Pereira, V. N. Kotov, and A. H. Castro-Neto, "Supercritical Coulomb Impurities in Gapped Graphene," Physical Review E, Vol. 78, No. 8, 2008, pp. 085101

4.) V. M. Pereira, J. Nilsson, and A. H. Castro-Neto, "Coulomb Impurity Problem in Graphene," Physical Review Letters, Vol. 99, No. 16, October 2007, pp. 166802

3.) B. Uchoa, and A. H. Castro-Neto, "Superconducting States of Pure and Doped Graphene," Physical Review Letters, Vol. 98, No. 14, April 2007, pp. 146801

2.) J. Nilsson, and A. H. Castro-Neto, "Impurities in a biased graphene bilayer," Physical Review Letters, Vol. 98, March 2007, pp. 126801

1.) N. Peres, F. Guinea, and A. H. Castro-Neto, "Coulomb interactions and ferromagnetism in pure and doped graphene," Physical Review B, Vol. 72, 2005, pp. 174406

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