Dr. Rajta István

Fokozat PhD
Tudományos besorolás Tudományos tanácsadó
Szervezeti munkakör Kutató
E-mail
Telephely 4026 Debrecen, Bem tér 18/c
Iroda IX/109
Telefon +36 52 509 240
Mellék 11416
Szervezeti egység
Státusz  Aktív
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Egyéb információ

Profilok

Scopus 
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LinkedIn 
ResearchGate 
Országos Doktori Tanács 
MTA Köztestület

 

Válogatott publikációk

  1. F. Watt, J.A. van Kan, I. Rajta, A.A. Bettiol, T.F. Choo, M.B.H. Breese, T. Osipowicz:
    The National University of Singapore high energy ion nano-probe facility: Performance tests
    Nuclear Instruments and Methods B210 (2003) 14-20
    DOI: https://doi.org/10.1016/S0168-583X(03)01003-6
  2. O. Romanenko, V. Havranek, A. Mackova, M. Davidkova, M. Cutroneo, A.G. Ponomarev, G.U.L. Nagy, J. Stammers, I. Rajta:
    Performance and application of heavy ion nuclear microbeam facility at the Nuclear Physics Institute in Řež, Czech Republic
    Review of Scientific Instruments 90 (2019) 013701
    DOI: https://doi.org/10.1063/1.5070121

  3. I. Rajta, I. Vajda, Gy. Gyürky, L. Csedreki, Á.Z. Kiss, S. Biri, H.A.P. van  Oosterhout, N.C. Podaru, D.J.W. Mous:
    Accelerator characterization of the new ion beam facility at MTA Atomki in Debrecen, Hungary
    Nuclear Instruments and Methods A880 (2018) 125-130
    DOI: https://doi.org/10.1016/j.nima.2017.10.073
  4. I. Rajta, G.U.L. Nagy, I. Vajda, S.Z. Szilasi, G.W. Grime, F. Watt:
    First resolution test results of the Atomki nuclear nanoprobe
    Nuclear Instruments and Methods B449 (2019) 94-98
    DOI: https://doi.org/10.1016/j.nimb.2019.03.056
  5. I. Uzonyi, I. Rajta, L. Bartha, Á.Z. Kiss, A.Nagy:
    Realization of the simultaneous micro-PIXE analysis of heavy and light elements at a nuclear microprobe

    Nuclear Instruments and Methods B181 (2001) 193-198
    DOI: https://doi.org/10.1016/S0168-583X(01)00370-6

  6. G.Á. Sziki, I. Uzonyi, E. Dobos, I. Rajta, K.T. Biró, S. Nagy, Á.Z. Kiss:
    A new micro-DIGE set-up for the analysis of light elements
    Nuclear Instruments and Methods B 219-220 (2004) 508-513
    DOI: https://doi.org/10.1016/j.nimb.2004.01.112

  7. U. Wätjen, I. Bársony, G.W. Grime, I. Rajta:
    On the interpretation of micro-PIXE measurements on a prototype microstructured reference material
    Nuclear Instruments and Methods B150 (1999) 532-537
    DOI: https://doi.org/10.1016/S0168-583X(98)01073-8

  8. I. Rajta, G.A.B. Gál, S.Z. Szilasi, Z. Juhász, S. Biri, M. Mátéfi-Tempfli, S. Mátéfi-Tempfli:
    Nanochannel alignment analysis by scanning transmission ion microscopy
    Nanotechnology 21 (2010) 295704
    DOI: https://doi.org/10.1088/0957-4484/21/29/295704

  9. G.A.B. Gál, I. Rajta, S.Z. Szilasi, Z. Juhász, S. Biri, Cs. Cserháti, A. Csik, B. Sulik:
    Scanning transmission ion microscopy of polycarbonate nanocapillaries
    Nuclear Instruments and Methods B269 (2011) 2322-2325
    DOI: https://doi.org/10.1016/j.nimb.2011.02.024

  10. A.A. Bettiol, I. Rajta, E.J. Teo, J.A. van Kan, F. Watt:
    Proton beam micromachining: electron emission from SU-8 resist during ion beam irradiation,
    Nuclear Instruments and Methods B190 (2002) 154-159
    DOI: https://doi.org/10.1016/S0168-583X(01)01276-9

  11. J.A. van Kan, I. Rajta, K. Ansari, A.A. Bettiol, F. Watt:
    Nickel and copper electroplating of proton beam micromachined SU-8 resist
    Microsystem Technologies 8 (2002) 383-386
    DOI: https://doi.org/10.1007/s00542-001-0139-5

  12. F. Watt, I. Rajta, J.A. van Kan, A.A. Bettiol, T. Osipowicz:
    Proton beam micromachined resolution standards for nuclear microprobes
    Nuclear Instruments and Methods B190 (2002) 306-311
    DOI: https://doi.org/10.1016/S0168-583X(01)01288-5

  13. I. Rajta, I. Gómez-Morilla, M.H. Abraham, Á.Z. Kiss:
    Proton beam micromachining on PMMA, Foturan and CR-39 materials
    Nuclear Instruments and Methods B210 (2003) 260-265
    DOI: https://doi.org/10.1016/S0168-583X(03)01025-5

  14. I. Rajta, E. Baradács, A.A. Bettiol, I. Csige, K. Tőkési, L. Budai, Á.Z. Kiss:
    Optimization of particle fluence in micromachining of CR-39
    Nuclear Instruments and Methods B231 (2005) 384-388
    DOI: https://doi.org/10.1016/j.nimb.2005.01.087

  15. E. Baradács, I. Csige, I. Rajta:
    CO2 treatment and vacuum effects in proton beam micromachining of PADC
    Radiation Measurements 43 (2008) 1354-1356
    DOI: https://doi.org/10.1016/j.radmeas.2008.02.007

  16. T.C. Sum, A.A. Bettiol, H.L. Seng, I. Rajta, J.A. van Kan, F. Watt:
    Proton beam writing of passive waveguides in PMMA
    Nuclear Instruments and Methods B210 (2003) 266-271
    DOI: https://doi.org/10.1016/S0168-583X(03)01028-0

  17. I. Rajta, S.Z. Szilasi, J. Budai, Z. Tóth, P. Petrik, E. Baradács:
    Refractive index depth profile in PMMA due to proton irradiation
    Nuclear Instruments and Methods B260 (2007) 400-404
    DOI: https://doi.org/10.1016/j.nimb.2007.02.052

  18. S.Z. Szilasi, J. Budai, Z. Pápa, R. Huszánk, Z. Tóth, I. Rajta:
    Refractive index depth profile and its relaxation in polydimethylsiloxane (PDMS) due to proton irradiation
    Materials Chemistry and Physics 131 (2011) 370-374
    DOI: https://doi.org/10.1016/j.matchemphys.2011.09.058

  19. S.Z. Szilasi, J. Kokavecz, R. Huszánk, I. Rajta:
    Compaction of poly(dimethylsiloxane) (PDMS) due to proton beam irradiation
    Applied Surface Science 257 (2011) 4612-4615
    DOI: https://doi.org/10.1016/j.apsusc.2010.12.095

  20. S.Z. Szilasi, N. Hegman, A. Csik, I. Rajta:
    Creation of convex microlenses in PDMS with focused MeV ion beam
    Microelectronic Engineering 88 (2011) 2885-2888
    DOI: https://doi.org/10.1016/j.mee.2011.03.007

  21. G.U.L. Nagy, V. Lavrentiev, I. Bányász, S.Z. Szilasi, V. Havranek, V. Vosecek, R. Huszánk, I. Rajta:
    Compaction of polydimethyl-siloxane due to nitrogen ion irradiation and its application for creating microlens arrays
    Thin Solid Films 636 (2017) 634-638
    DOI: https://doi.org/10.1016/j.tsf.2017.07.015

  22. I. Rajta, S.Z. Szilasi, P. Fürjes, Z. Fekete, Cs. Dücső:
    Si micro-turbine by proton beam writing and porous silicon micromachining
    Nuclear Instruments and Methods B267 (2009) 2292-2295
    DOI: https://doi.org/10.1016/j.nimb.2009.03.087

  23. I. Rajta, R. Huszánk, A.T.T. Szabó, G.U.L. Nagy, S.Z. Szilasi, P. Fürjes, E. Holczer, Z. Fekete, G. Járvás, M. Szigeti, L. Hajba, J. Bodnár, A. Guttman:
    Tilted pillar array fabrication by the combination of proton beam writing and soft lithography for
    microfluidic cell capture: Part 1 Design and feasibility

    Electrophoresis 37 (2016) 498-503
    DOI: https://doi.org/10.1002/elps.201500254

  24. G. Járvás, T. Varga, M. Szigeti, L. Hajba, P. Fürjes, I. Rajta, A. Guttman:
    Tilted pillar array fabrication by the combination of proton beam writing and soft lithography
    for microfluidic cell capture Part 2: Image sequence analysis based evaluation and biological application

    Electrophoresis 39 (2018) 537-539
    DOI: https://doi.org/10.1002/elps.201700268

  25. I. Rajta, I. Borbély-Kiss, Gy. Mórik, L. Bartha, E. Koltay, Á.Z. Kiss:
    The new Atomki scanning proton microprobe
    Nuclear Instruments and Methods B109 (1996) 148-153
    DOI: https://doi.org/10.1016/0168-583X(95)00897-7

  26. I. Bányász, E. Szilágyi, I. Rajta, G.U.L. Nagy, S. Pelli, G. Nunzi Conti, S. Berneschi, V. Havránek, V. Voseček, N. Nagy, Z. Szabó, M. Veres, A. Speghini:
    Fabrication of low loss channel waveguide in tungsten-tellurite glass by 11 MeV carbon ion microbeam for telecom C band
    Optical Materials X 4 (2019) 100035
    DOI: https://doi.org/10.1016/j.omx.2019.100035

  27. S.Z. Szilasi, R. Huszánk, A. Csik, Cs. Cserháti, I. Rajta:
    PDMS patterning by proton beam
    Nuclear Instruments and Methods B267 (2009) 2296-2298
    DOI: https://doi.org/10.1016/j.nimb.2009.03.038

  28. R. Huszánk, S.Z. Szilasi, I. Rajta, A. Csik:
    Fabrication of optical devices in poly(dimethylsiloxane) by proton microbeam
    Optics Communications 283 (2010) 176-180
    DOI: https://doi.org/10.1016/j.optcom.2009.09.066

  29. R. Huszank, I. Rajta, Cs. Cserháti:
    Proton beam lithography in negative tone liquid phase PDMS polymer resist
    Nuclear Instruments and Methods B348 (2015) 213-217
    DOI: https://doi.org/10.1016/j.nimb.2014.12.053