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BGU Physics Department()

The Condensed-Matter Theory Group ()


The condensed matter theory group at BGU conducts research in mesoscopic physics, disordered and strongly correlated systems. Of special interest are topics such as superconductivity, phase transitions, quasicrystals, liquid crystals, quantum dots, Kondo effect, persistent currents, quantum Hall effect, dephasing, dissipation and the relation to quantum chaos. The group has strong interactions with other research groups. It is also involved in multidisciplinary research in the context of the Ilse-Katz Center for Meso and Nanoscale Science and Technology.

Group members:()

Amnon Aharony: Condensed matter theory; Spintronics.

Yshai Avishai: Condensed matter physics. Mesoscopic systems. Transport properties in one and two dimensional systems. Disordered systems. Localization. Magnetoconductance. Quantum Hall effect. Aharonov Bohm effect in mesoscopic systems. Magneto-conductance of ordered systems and of two dimensional quasi-crystals. Quantum percolation persistent current.

Yevgeny Bar Lev Nonequilibrium dynamics and thermalization in quantum many-body systems.

Shelomo I. Ben-Abraham: Ordered aperiodic structures such as quasicrystals and modulated crystals. Applications of the cluster approach to crystalline structures, both periodic and aperiodic, as well as the hierarchical organization of matter. Liquid crystals.

Doron Cohen: Quantum chaos; Driven mesoscopic systems; Bose-Hubbard circuits; Interplay of stochastic and coherent dynamics; Quantum irreversibility, dissipation and dephasing.

Ora Entin-Wohlman: Condensed matter theory; Spintronics.

Eytan Grosfeld: Topological superconductors, topological insulators,non-Abelian anyons, Majorana fermions, quantum Hall effect

Baruch Horovitz: Superconductivity, phase transitions of flux lattices, Josephson junctions, disordered systems and the quantum Hall effect.

Dganit Meidan: Topological phases of matter and interactions in low dimensional systems.

Yigal Meir: Mesoscopic systems, disordered systems, strongly correlated systems and the quantum Hall effect.

Moshe Schechter: Glasses, disordered systems, quantum magnetism

Anatoly Golub: Quantum Hall effect. Hall effect in unconventional superconductors. High-Tc superconductors. Tunneling in superconducting junctions such as point contacts, quantum dots, junctions with an Anderson or Kondo type impurity. Kondo effect. Disordered junctions and Josephson effect.

Sergei Gredeskul: Quantum Hall effect, Incoherent mesoscopics, Vortices in superconductors, Electron spectrum and localization in disordered and incommensurate media, Wave propagation and transmission through random media, Nonlinearity and disorder.