C U R R I C U L U M V I T A E PERSONAL DATA Name and surname: Tasko Grozdanov Date of birth: February 24, 1951. Place of birth: Beograd, Serbia Nationality: Serbia EDUCATION Undergraduate studies: (1969-1974) Technical Physics Department, Electrical Engineering Faculty, University of Beograd. Postgraduate studies: (1974-1977) Theoretical Physics, Faculty of Natural Science and Mathematics, University of Beograd. M.A. thesis: "Applications of Asymptotic Methods in Atomic Collision Theory", 1977, Institute of Physics and Faculty of Natural Science and Mathematics, University of Beograd. Ph.D. thesis: "Charge Exchange Collisions of Multiply Charged Ions with Atoms", 1981, Institute of Physics and Faculty of Natural Science and Mathematics, University of Beograd. PROFESSIONAL POSITIONS Department of Theoretical Physics, Institute of Physics, University of Beograd, Yugoslavia: Assistant, 1975.-1981. Research Assistant Professor, 1981.-1985. Research Associate Professor, 1985.-1992. Research Professor 1992.- SPECIALIZATIONS AND VISITING POSITIONS Advanced training: (1980) Department of Theoretical Physics, Leningrad State University, Leningrad, USSR. Postdoctoral specialization:(1984-1986) Department of Chemistry, University of Southern California, Los Angeles, USA. Directeur de recherche associe de CNRS: (1993,1999), Laboratoire de Dynamique Moleculaire et Atomique, Universite Paris VI, Paris, France Senior resarch associate:(1994-1995) Department of Chemistry, University of Southern California, Los Angeles, USA. Visiting professor: (1995-2004), Laboratoire de Dynamique des Ions, Atomes et Molecules, Universite Paris VI, Paris, France TEACHING EXPERIENCE Professor at postgraduate studies of Theoretical physics at Physics faculty, University of Beograd, Yugoslavia (1986.- 2010) for subjects: -Advanced Quantum Mechanics -Theory of Atomic and Molecular Spectra -Quantum Scattering Theory MAIN FIELDS OF SCIENTIFIC WORK -Applications of asymptotic methods in atomic physics. -Theory of slow ion-atom collisions. -Rydberg atoms in external fields. -Semiclassical quantization of nonintegrable systems. -Quantum manifestations of chaotic classical dynamics. -Photoionization and photodissociation processes. - Low-energy ractive collisions