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דוא"ל: avron@physics.technion.ac.il
נושא מחקר: פיזיקה מתמטית
אתר בית: https://phsites.technion.ac.il/avron
Research Interests & Publications: My research focuses on questions of ``quantum engineering'', a budding area of research which focusses on application of the quantum mechanics to nano-technology. I am interested in the control and manipulation of quantum systems, enhanced precision and sensitivities that reflect quantum features, such as quantum entanglement, sensitivity of quantum systems to outside interventions and noise. I do theory, and use methods of mathematical physics, geometry, spectral theory, analysis, and animations. Selected Publication: J. E. Avron and O. Kenneth, Entanglement and the geometry of two qubits, Ann. Phys., 324, 470-496, (2009). J. E. Avron and O. Raz, A geometric theory of swimming: Purcell's swimmer and its symmetrized cousin, New J. Phys., 10, 063016, (2008) . J. E. Avron, G. Bisker, D. Gershoni, N. H. Lindner, E. A. Meirom and R. J. Warburton, Entanglement on Demand through Time Reordering. Phys. Rev. Lett., 100, 120501, (2008). O. Raz and J. E. Avron, Swimming, pumping and gliding at low Reynolds numbers, New J. Phys., 9, 437, (2007). J. E. Avron and O. Kenneth, Swimming in curved space Or The Baron and the Cat, New J. Phys., 8, 68 (2006). N. Akopian, N.H. Lindner, E. Poem. Y. Berlatzky, J. Avron, D. Gershoni, D.B. Gerardot and P.M. Petroff, Entangled photon pairs from a semiconductor quantum dot, Phys. Rev. Lett., 96, 130501 (2006) J. E. Avron, B. Gutkin and D. Oaknin, Topological swimming in a quantum sea, Phys. Rev. Lett., 96, 130602 (2006). J. E. Avron , O. Kenneth and D. H. Oaknin, Pushmepullyou: An efficient micro-swimmer, New J. Phys., 7, 234, (2005). J. E. Avron, O. Gat and O. Kenneth, Optimal swimming at low Reynolds numbers , Phys. Rev. Lett., 93, 186001, (2004). J. E.Avron, A. Elgart, G. M. Graf and L. Sadun, Transport and Dissipation in Quantum Pumps, J. Stat. Phys., 116, 425-473 (2004). J. E. Avron, D. Osadchy and R. Seiler, A topological look at the quantum Hall effect, Physics Today, 56, August, 38-42, (2003). J. E. Avron and A. Elgart, Adiabatic Theorem without a Gap Condition, Comm. Math. Phys., 203, 445-463, (1999). J. E. Avron and P. G. Zograf, Geometric Forces on Point Fluxes in Quantum Hall Fluids , J. Stat. Phys., 92, 1193-1201, (1998). J. E. Avron, R. Seiler and P. Zograf, Viscosity of Quantum Hall Fluids, Phys. Rev. Lett., 75, 697-700, (1995). J. E. Avron, R. Seiler and B. Simon, Charge Deficiency, Charge Transport and Comparison of Dimensions, Comm. Math. Phys., 159, 399-422, (1994). J. E. Avron, R.Seiler and B. Simon, Quantum Hall effect and the relative index of Projections, Phys. Rev. Lett., 65, 2185-2189, (1990). J. E. Avron, J. Segert, L. Sadun and B. Simon,Chern numbers, Quaternions and Berry's phase in Fermi systems, Comm. Math. Phys., 124, 595-627, (1989).
My research focuses on questions of ``quantum engineering'', a budding area of research which focusses on application of the quantum mechanics to nano-technology. I am interested in the control and manipulation of quantum systems, enhanced precision and sensitivities that reflect quantum features, such as quantum entanglement, sensitivity of quantum systems to outside interventions and noise. I do theory, and use methods of mathematical physics, geometry, spectral theory, analysis, and animations.
Selected Publication: