Dr. Eugene Kogan
Bar-Ilan University
Associate Professor
Email: Eugene.Kogan@biu.ac.il
Qualifications
1983 Ph.D, Institute of Metal Physics, Academy of Sciences, Physics
1975 M.S., Ural State University, Physics
Publications(selected)
1. E. Kogan and M. Kaveh. Random-matrix-theory approach to the intensity distributions of waves propagating in a random medium. Physical Review B, 52(6): 3813–3815, 1995.
2. E. Kogan, M. Kaveh, R. Baumgartner, and R. Berkovits. Statistics of waves propagating in a random medium. Physical Review B, 48(13): 9404, 1993.
3. E. Kogan, P.A. Mello, and H. Liqun. Wave scattering through classically chaotic cavities in the presence of absorption: An informationtheoretic model. Physical Review E, 61(1): 17–20, 2000.
4. E.M. Kogan and M.I. Auslender. Anderson localization in ferromagnetic semiconductors due to spin disorder i. narrow conduction band. physica status solidi (b), 147(2): 613–620, 1988.
5. E. Kogan and M. Kaveh. Diffusion constant in a random system near resonance. Physical review. B, Condensed matter, 46(17): 10636, 1992.
6. E. Kogan, M. Kaveh, et al. Effect of absorption on long-range correlations in random media. Physical review. B, Condensed matter, 45(2): 1049, 1992.
7. E. Kogan. Rkky interaction in graphene. Physical Review B, 84: 115119, 2011.
8. E. Kogan and M. Kaveh. Statistics of fluctuations for two types of crossover: From the ballistic to diffusive regime and from the orthogonal to unitary ensemble. Physical Review B, 51(22): 16400, 1995.
9. E. Kogan, M. Auslender, and M. Kaveh. Localization and dephasing driven by magnetic fluctuations in low carrier density colossal magnetoresistance materials. The European Physical Journal B-Condensed Matter and Complex Systems, 9(3): 373–376, 1999.
10. E. Kogan and M. Auslender. Paramagnetic-ferromagnetic transition in a double-exchange model. Physical Review B, 67(13): 132410, 2003.
11. E. Kogan and V.U. Nazarov. Symmetry classification of energy bands in graphene. Physical Review B, 85(11): 115418, 2012.
12. R.J.F Hughes, J.T. Nicholls, J.E.F. Frost, E.H. Linfield, M. Pepper, C.J.B. Ford, D.A. Ritchie, G.A.C. Jones, E. Kogan, and M. Kaveh. Magnetic-field-induced insulator-quantum hall-insulator transition in a disordered two-dimensional electron gas. Journal of Physics: Condensed Matter, 6: 4763, 1994.
13. D.H. Cobden and E. Kogan. Measurement of the conductance distribution function at a quantum hall transition. Physical Review B, 54(24): 17316–17319, 1996.
14. M. Auslender and E. Kogan. Ferromagnetic transition in a double-exchange system containing impurities. Physical Review B, 65(1): 012408, 2001.
15. B.A. van Tiggelen, E. Kogan, et al. Analogies between light and electrons: Density of states and friedel’s identity. Physical review. A, 49(2): 708, 1994.
16. R.J.F. Hughes, A.K. Savchenko, J.E.F. Frost, E.H. Linfield, J.T. Nicholls, M. Pepper, E. Kogan, and M. Kaveh. Distribution-function analysis of mesoscopic hopping conductance fluctuations. Physical Review B, 54(3): 2091, 1996.
17. M. Auslender and E. Kogan. Ferromagnetic transition in a doubleexchange system containing impurities in the dynamical mean-field approximation. EPL (Europhysics Letters), 59: 277, 2002.
18. M. Auslender and E. Kogan. Cpa density of states and conductivity in a double-exchange system containing impurities. The European Physical Journal B-Condensed Matter and Complex Systems, 19(4): 525–529, 2001.
19. D. Schmeltzer, E. Kogan, R. Berkovits, and M. Kaveh. Conductance in a one-dimensional spin polarized gas. Philosophical Magazine B, 77(5): 1189–1194, 1998.
20. M.I. Auslender, E.M. Kogan, and S.V. Tretyakov. Anderson localization in ferromagnetic semiconductors due to spin disorder. ii. Wide conduction band. physica status solidi (b), 148(1): 289–295, 1988.
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