Physics

Ph.D.: Physics, Technion- Israel Institute of Technology 2003

M.Sc.: Physics, The Weizmann Institute of Science 1998

B.Sc.: Physics and Mathematics, The Hebrew University of Jerusalem, 1996

Main Nano Field: biophysical aspects of cell motility, Self-organization in biological systems, Interface between molecular biology and nanotechnology.

Research Interests:

*Biophysical aspects of cell motility 

*Self-organization in biological systems 

Ph.D.: Columbia University 1994.

B.Sc.: Physics and Mathematics, Tel Aviv university, 1989.

Main Nano Field:

Magnetic quantum tunneling in molecular magnets.

Research Interests:

*Magnetic molecules

*Searching for electromagnetic radiation emitted from molecular nano magnets in the 100GHz regime.

*Nano structure in correlated electron systems

Ph.D.: Technion 2004

M.Sc.: Technion 2000

B.Sc.: Technion 1997

Main Nano Field: Angle resolved phtoemission spectroscopy. Magnetic resonance. Strongly correlated electron systems and exotic superconductors. Nano-scale phase seperation in strongly correlated systems.

Research Interests:

*Angle resolved photoemission spectroscopy.

*Strongly correlated electron systems.

*Exotic superconductors.

*Magnetic resonance.

Ph.D.: Weizman Inst 1966

M.Sc.: Physics, Hebrew Univ 1962

B.Sc.: Physics and Mathematics, Heberw Univ.

Main Nano Field: Nano diamond Single optical centers in diamond (NV) for quantum information processing.

Research interests: 

Ion implantation of semiconductors

Ion impact related defects in semiconductors

Diamond as an electronic material.

Nano diamond

Single optical centers in diamond (NV) for quantum information processing

Research Interests:  Attosecond science, Nonlinear optics, Laser-driven x-rays, Solitons, Lens-less imaging

Main Nano field

 Lasers and high spatial resolution optics, for low light level spectroscopy and sub picosecond time resolved spectroscopy

Research Interestes

Physics and applications of conjugated conducting polymers

Spectroscopy of nano-size semiconducting quantum dots

Organic spintronics

Effects of magnetic fields on organic devices such as organic light emitting diodes, organic photovoltaic cells and organic transistors