Publications:

• Photonic heterostructures with Levy-type disorder: Statistics of coherent transmission

  A. A. Fernandez, J. A. Mendez-Bermudez, and Victor A. Gopar, Phys. Rev. A 85, 035803 (2012). arXiv:1203.1337

• Conductance through quantum wires with Levy-type disorder: universal statistics in anomalous quantum transport

  Fernando Falceto and Victor A. Gopar, EPL 92, 57014 (2010). arXiv:1011.3791

• Controlling conductance statistics of quantum wires by driving ac fields

  Victor A. Gopar and Rafael A. Molina, Phys. Rev. B 81, 195415 (2010). arXiv:1004.4436

• Scattering and transport statistics at the metal-insulator transition: A numerical study of the power-law banded random-matrix model

  J. A. Mendez-Bermudez, Victor A. Gopar, and Imre Varga, Phys. Rev. B 82, 125106 (2010), arXiv:1001.2568

• Conductance distribution at criticality: one-dimensional Anderson model with random long-range hopping.

  J. A. Mendez, Victor A. Gopar, and Imre Varga, Ann. Phys. 18 891 (2009).

• Quantum Scattering and Transport in Classically Chaotic Cavities: An overview of Past and New Results.

  Pier A. Mello, Victor A. Gopar, and J. A. Mendez-Bermudez,

  Chaotic Systems: Theory and Applications: Selected Papers from the 2nd Chaotic Modeling and Simulation International Conference (CHAOS2009), C. H. Skiadas and I. Dimotikalis, Eds, World Scientific, 2010. arXiv:0906.5074

• Effects of Andreev reflection on the conductance of quantum chaotic dots.

  Victor A. Gopar, J. A. Mendez-Bermudez, and Arafa H. Aly, Phys. Rev. B 79 245412 (2009). arXiv:0902.3687

• Statistical analysis of the transmission based on the DMPK equation: an application to Pb nanocontacts.

  Victor A. Gopar, Eur. Phys. J. B, 62 299 (2008). arXiv:0804.3200

• Statistics of orbital entanglement production in quantum-chaotic dots.

  Victor A. Gopar, Diego Frustaglia, Phys. Rev. B 77 153403 (2008). arXiv:0712.0623

• Chaotic scattering with direct processes: A generalization of Poisson's kernel for non-unitary matrices.

  Victor A. Gopar, M. Martínez-Mares, R. A. Méndez, Journal of Physics A: Mathematical and Theoretical 41 015103 (2008). arXiv:0709.4321

• Effect of temperature and bias voltage on the conductance distribution of 1D-disordered wires with dirty contacts.

  F. Foieri, M. J. Sanchez, L. Arrachea, Victor A. Gopar, Physica B 38 376 (2007).

• Conductance distributions of one-dimensional disordered wires at finite temperature and bias voltage.

  F. Foieri, M. J. Sanchez, L. Arrachea, Victor A. Gopar, Phys. Rev. B 74 165313 (2006). cond-mat/0606715

• Transport in chaotic quantum dots: effects of spatial symmetries which interchange the leads.

  Victor A. Gopar, Stefan Rotter, Henning Schomerus, Phys. Rev. B 73, 165308 (2006) cond-mat/0512415

• Statistical Study of the Conductance and Shot Noise in Open Quantum-Chaotic Cavities. Contribution from Whispering Gallery Modes.

  Evgeny N. Bulgakov, Victor A. Gopar, Pier A. Mello, Ingrid Rotter, Phys. Rev. B 73, 155302 (2006) cond-mat/0511424

• Magnetotransport in Nanowires in Spintronic Materials and Technology, R.L. Stamps, P. Falloon, V. Gopar, R. Jalabert, D. Weinmann, Editors Y. Xu and S. Thompson, Taylor & Francis (2006).

• Effect of temperature and bias voltage on the conductance distribution of disordered 1d quantum wires.

  Victor A. Gopar, Peter Wölfle, Europhys. Lett. 71, 966 (2005) [PDF]

• Electronic transport through domain walls in ferromagnetic nanowires: Co-existence of adiabatic and non-adiabatic spin dynamics.

  Victor A. Gopar, Dietmar Weinmann, Rodolfo A. Jalabert, Robert L. Stamps, Phys. Rev. B 69, 014426 (2004), [PDF]

• Conductance distribution in quasi-one-dimensional disordered quantum wires.

  K. A. Muttalib, Peter Wölfle, Victor A. Gopar, Annals of Physics, 308, 156 (2003) [PDF]

• Non-analyticity in the distribution of conductances in quasi one dimensional wires. K. A. Muttalib, Peter Wölfle, Antonio Garcia-Martin, Victor A. Gopar, Europhys. Lett., 61 (1), 95 (2003).[PDF]

• Conductance distribution in disordered quantum wires: Crossover between the metallic and insulating regimes. Victor A. Gopar, K. A. Muttalib, Peter Wölfle, Phys. Rev. B, 66, 174204 (2002). [PDF]

• Generalization of the DMPK equation beyond quasi one dimension. K. A. Muttalib, Victor A. GoparPhys. Rev. B 66, 115318 (2002) [PDF]

• The problem of quantum chaotic scattering without direct processes reduced to the one without. Victor A. Gopar and Pier A. Mello, Europhys. Lett. 42 131 (1998) [PDF]

• The invariant measure for scattering matrices with block symmetries.

  Victor A. Gopar, Moises Martinez, Pier A. Mello, and Harold Baranger,J. Phys. A: Math. Gen. 29 881 (1996) [PDF]

• Mesoscopic Capacitors: A Statistical Analysis.

  Victor A. Gopar, Pier A. Mello and Markus Büttiker, Phys. Rev. Lett. 77 3005 (1996) [PDF]

• Random-matrix theory and the cumulants of the conductance for a quasi-one-dimensional mesoscopic systems.

  Victor A. Gopar, Moises Martinez, and Pier A. Mello, Phys. Rev. B 51 16917 (1995) [PDF]

• Random-matrix study of multriprobe mesoscopic devices. II. A four-probe one-dimensional system.

  Victor A. Gopar, Moises Martinez, and Pier A, Phys. Rev. B 50 2502 (1994) [PDF]