Department of Materials Science by Nuclear Methods
About us
Research
Methods
Facilities
Van de Graaff accelerator
Heavy-ion cascade implanter
Molekulanyaláb-epitaxia laboratórium
Mössbauer laboratory
Highlights
Network of Hungarian Mössbauer Laboratories
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RBX
DEPTH
RBS-MAST
FitSuite
EFFI
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Organization
Ion Beam Physics
Balázs, Tamás
Bányász István
Kiss, László
Kovács, Imre
Kótai, Endre
Németh, Attila
Seres, Csaba
Szilágyi, Edit
Szőkefalvi-Nagy, Zoltán
Vad, Gábor
Zwickl, Zoltán
fs & X-ray Spectroscopy
Bajnóczi, Éva
Bazsó, Gábor
Bogdán, Csilla
Deák, László
Keszthelyi, Tamás
Mikeházi, Anton
Németh, Zoltán
Papp, Mariann
Pápai, Mátyás
Rozgonyi, Tamás
Szemes, Dorottya
Vancza, Andor
Vankó, György
Functional Nanostructures
Bottyán, László
Hegedűs, Gergő
Merkel, Dániel
Nagy D.L.
Sajti, Szilárd
Management
Education
Seminars
Vacancies
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Research projects
Materials science and solid-state physics
Novel approaches to lasting problems: spectroscopic studies of the electronic structure of transition metal-based strongly correlated systems
Novel diffusion studies in stratified structures by using waveguide enhancement and isotope multilayer methods
Proximity effects in superconductor/ferromegnet, ferromagnet/ferromagnet and antiferromagnet/ferromagnet heterostructures
Perpendicular anisotropy multicomponent films and ion beam tayloring of their magnetic structure
Fabrication of integrated optical elements via ion beam implantation and irradiation for telecommunication applications
Non-destructive XRF and PIXE analysis of objects of art and archeology
Hungarian
Department of Material Science by Nuclear Methods
About us
Research
Methods
Facilities
Highlights
Network of Hungarian Mössbauer Laboratories
Software
Publications
People
Organization
Education
Seminars
Vacancies
How to find us
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