Home

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
    • Software
      • RBX
      • DEPTH
      • RBS-MAST
      • FitSuite
      • EFFI
  • Publications
  • People
  • 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
      • Bogdán, Csilla
      • Deák, László
      • Keszthelyi, Tamás
      • Németh, Zoltán
      • Papp, Mariann
      • Pápai, Mátyás
      • Szemes, Dorottya
      • Vankó, György
    • Functional Nanostructures
      • Bottyán, László
      • Hegedűs, Gergő
      • Merkel, Dániel
      • Nagy D.L.
      • Sajti, Szilárd
    • Management
  • Education
  • Seminars
  • Vacancies
  • How to find us
Home

Experimental methods

Materials sience and solid-state physics


    Ion-beam analysis
    Mössbauer spectroscopy with radioactive sources
    Neutron reflectometry
    Nuclear resonant scattering of synchrotron radiation
    Magneto-optical Kerr effect
    X-ray spectroscopy (with crystal spectrometers)
    XRF spectroscopy

  • Hungarian 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

User login

  • Request new password

Languages

  • English English
  • Hungarian Hungarian

sp