Curriculum Vitae

 

Name:               Török                           First Name:     Gyula

Date of birth:   7 August 1953           Birth Place:      Budapest, Hungary 

Nationality:      Hungarian

Home Address: H-2045 Patak str 6 , Törökbálint

Telephone:        36-30-9046726

Status:               Married three children

Affliation: Research Institute for Solid State Physics

                  H-1525 Budapest , P .O. Box 49

                  Phone/fax: 36-1 392-2501

                  E-mail: torok@ szfki.hu,  torok.gyula@wigner.mta.hu/ torok@mail.kfki.hu

 

Education and training:

1968-1971 Secondary School, Fazekas Mihaly,  Budapest

1971-1976 Graduated at University Roland Eötvös, Budapest 

                    Physicist (Monte carlo modelling of ( p,pd) reactions )

1996 Candidate of Phys. Science Hungarian   Academy   of   Sciences (Structture determination of MBBA and EBBA liquid crystal materials by Rietveld method)

 

Positions held:

1976-1981 Assitant Lecturer, Technical University of Budapest, Hungary(Chem Phys dept)

1981-1987 Researcher, Joint Institute for Nuclear Research, Dubna, Russia (installation of TOF correlation spectrometer KORA)

1987-1988 Assistant Lecturer, Technical University of Budapest, Hungary (Chem Phys dept)

1988-   Researcher, Research Institute for Solid State Physics, Hungary ( Neutron uide system installations, cold neutron Triple axis spectrometer installation, reflectormeter development, SANS development)

1993   Research fellowship at Rutherford Appleton Laboratory, Oxford (diffraction of liquid crytal)

1996- Senior scientist, Research Institute for Solid State Physics, Hungary (triple axis spectrometer, polarization options for SANS and reflectometer)

 

Languages: English, Russian,

 

Publications: 217 articles , two book contribution.

 

Membership: Roland Eötvös Physical Society ( Neutron and Synchrotron Radiation Division)

 

Research activity:

- Structure and dynamic partially ordered systems liquid crystals, gels

  ferrofluids, membranes, fullerene compounds, steel radiation damage.

- Neutron scattering techniques: powder diffraction, small angle scattering,

   inelastic scattering, (triple axis spectr, spin echo),  neutron optics,

-         polarized neutron techniques , neutron  holography