Gábor Ribárik

Gábor Ribárik

assistant professor

PhD (Eötvös Loránd University, Budapest, 2009)

Department of Materials Physics

Room(s): Lágymányos Campus, Northern Building 4.63
Phone(s): +36-1-372-2821
Extension(s): +36-1-372-2500 / 6451
Mobile(s): n.a.
Homepage: ribarik.web.elte.hu
Email: uh.etle@kirabir

Biography:

Education:
PhD in Physics (summa cum laude), Eötvös University, Budapest, Hungary, 2009, adviser: Tamás Ungár.
Physicist (specialized in Solid State Physics) and Astronomer Master's degree, Minor in French-Hungarian technical translator, Eötvös University, Budapest, Hungary, 2001.

Research interest:
FFT-based modeling
X-ray line profile analysis
Microstructure modeling
Variable stars

Employment:
2016-: Assistant professor at Eötvös University, Department of Materials Physics, Budapest, Hungary
2014-2016: Invited Associate Professor at the Institut Jean Lamour - Laboratoire d'excellence DAMAS: Nancy-Metz, France
2012-2014: Assistant professor at Eötvös University, Department of Materials Physics, Budapest, Hungary
2004-2006; 2007-2012: Research assistant at Eötvös University, Department of Materials Physics, Budapest, Hungary
1997-2012: UNIX system manager at the Alfréd Rényi Institute of the Hungarian Academy of Sciences, Budapest, Hungary
1999-2002: UNIX system manager at the Department of Computer Sciences, Eötvös Loránd University, Budapest, Hungary

Grants:
Bolyai János Research Fellowship of the Hungarian Academy of Sciences, 2016-2019.
Magyary Zoltán Post-Doctoral Fellowship, 2010-2011.
Deák Ferenc Scholarship (granted by the Hungarian Ministry of Education), 2007-2008.
DEFINO, Aristotle University of Thessaloniki, 2006 (six months).
PhD scholarship at the Department of General Physics, Eötvös University, Budapest, Hungary, 2001-2004.

Links to associated scientific database profiles:

Selected publications of recent years:

  1. Ribárik, Gábor ; Jóni, Bertalan ; Ungár, Tamás Global optimum of microstructure parameters in the CMWP line-profile-analysis method by combining Marquardt-Levenberg and Monte-Carlo procedures JOURNAL OF MATERIALS SCIENCE & TECHNOLOGY 35 : 7 pp. 1508-1514. , 7 p. (2019)
  2. Eloh, KS ; Jacques, A ; Ribarik, G ; Berbenni, S The effect of crystal defects on 3D high-resolution diffraction peaks: A FFT-based method MATERIALS 11 : 9 Paper: 1669 (2018)
  3. Trehorel, Roxane ; Ribarik, Gabor ; Schenk, Thomas ; Jacques, Alain Real-time study of transients during high-temperature creep of an Ni-base superalloy by far-field high-energy synchrotron X-ray diffraction JOURNAL OF APPLIED CRYSTALLOGRAPHY 51 pp. 1274-1282. , 9 p. (2018)
  4. Langrand, C ; Hilairet, N ; Nisr, C ; Roskosz, M ; Ribárik, G ; Vaughan, GBM ; Merkel, S Reliability of multigrain indexing for orthorhombic polycrystals above 1 Mbar: Application to MgSiO3 post-perovskite JOURNAL OF APPLIED CRYSTALLOGRAPHY 50 : 1 pp. 120-130. , 11 p. (2017)
  5. Seymour, T ; Frankel, P ; Balogh, L ; Ungár, T ; Thompson, SP ; Jädernäs, D ; Romero, J ; Hallstadius, L ; Daymond, MR ; Ribárik, G et al. Evolution of dislocation structure in neutron irradiated Zircaloy-2 studied by synchrotron x-ray diffraction peak profile analysis ACTA MATERIALIA 126 pp. 102-113. , 12 p. (2017)

Photo