Vajtai R., Beleznai Cs., Nánai L




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48. Vajtai R., Beleznai Cs., Nánai L., Gingl Z., George T.F.:

Nonlinear Aspects of Laser-driven Oxidation of Metals

Applied Surface Science, 106, 247-257 (1996)

IF.: 1,029



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49. Nánai L., George T.F.:

Laser-assisted Formation of Metallic Oxide Microtubes

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50. Nánai L., Vajtai R., George T.F.:

Laser-induced Oxidation of Metals; State of the Art.

Thin Solid Films, 298(1-2), 160-164 (1997)

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Biochemistry, Genetics and Molecular Biology

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51. Beleznai Cs., Vajtai R., Nánai L.:

UV Induced Fractal Surfaces.

Fractals, 5(2), 275-280 (1997)

IF.: 0,556



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Chem. Rev. 103(2), 453-485 (2003)

Rojahn Martin

Encapsulation of a retina implant. Thesis Univ. of Stuttgart (2003)

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52. Nánai L., Vajtai R., Beleznai Cs., Remes J., Leppävuori S., George T.F.:

Structural Changes in GaAs induced by Ultrafast (fs) Laser Pulses.

Journal of Materials Research, 13(7), 1808-1811 (1998)

IF.: 1,539



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(Heat Transfer; a review of 1998 literature), Inf. J. Heat Mass Transf. 44(2), 253-366 Jan (2001)
53. Békési J., Kordás K., Beleznai Cs., Bali K., Vajtai R., Nánai L.:

UV Laser Induced Etching and Metal Seeding on Polymers: a Surface Characterization.

Appl. Surf. Sci., 138-139, 613-616 (1999)

IF.: 1,195



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ASS, 181(3-4), 196-200 (2001)

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Surface and Coating technology 125(1-3), 19-24 (2000)

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Current Applied Physics 12: pp.S63-S68 (2012)

54. Kordás K., Békési J., Bali K., Vajtai R., Nánai L., George T.F., Leppävuori S.:

UV laser-induced liquid-phase palladium seeding on polymers.

Journal of Material Research, V14(9), 3690-3694 (1999)

IF.: 1,574



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Surface and Coatings Technology 200(16-17), 5028-5036 (2006)

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Appl. Mat. & Interfaces 1(2), 261-265. (2009)

55. Kordás K., Bali K., Leppävuori S., Uusimäki A., Nánai L.:

Laser-direct writing of Palladium on Polyimide Surfaces from Solutions.

Applied Surface Science, 152(3-4), 149-155 (1999)

IF.: 1,195



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Modern Topics in Chemical Physics, 125-147 (2002) ed. T.F. George, Xin Sun, G. Zhang

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Laser Technology, 29(4), 373-376 (2005)

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56. Beleznai Cs., Vouagner D., Girardeau-Montaut J.P., Nánai L.:

Laser induced desorption of various tungsten oxides on polycrystalline W surfaces.

Appl. Surf. Sci., 138-139, 512-516 (1999)

IF.: 1,195



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57. Kordás K., Békési J.,Bali K., Vajtai R., Nánai L., George T.F., Leppävuori S.,:

Ultraviolet laser-induced liquid-phase palladium seeding on polymers

Journal of materials research (ISSN: 0884-2914) 14:(9), pp. 3690-3694 (1999)


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Journal of physical chemistry C 112: (10) pp. 3627-3632. (2008)

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Acs. Applied Materials & interfaces 1: (2) pp. 261-265. (2009)

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Langmuir 24: (11) pp. 5949-5954. (2008)

58. Kordás K., Bali K., Leppävuori S., Uusimäki A., Nánai L.:

Laser-direct writing of copper on polyimide surface from solution.

Appl. Surface Science, 154-155, pp.399-404 (2000)

IF.: 1,222



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Current Trends in Pattering with Copper, American Chem. Rev. Soc. 102(5), 1525-49 (2002)

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ICALEO Cong. pp. 388-94 (2005)

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IEEE Transaction on Advanced Packaging 29(2), pp.291-294 (2006)

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Asian J. of Res. in Soc. Sci. and Humanities, 6(5), 1218-1236 (2016)
86. L. Braescu, A.M. Bálint, L. Nánai, St. Bálint:

Model-based optimization of the growth process parameters for a silicon sheet grown in a vacuum by edge-defined film-fed growth (EFG) method.

International Journal of Theoretical Physics, Group Theory and Nonlinear Optics, Vol. 12, Nr. 1, pp.73-84 (2007)
87. G.J. Taft, M.T. Newby, J.J. Hrebik, M.F. Onellion, T.F. George, D. Szentesi, S. Szatmári, L. Nánai:

Ultrafast dynamic reflectivity of vanadium pentoxide.

Journal of Materials Research, 23, pp. 308-311 (2008)


  • Zhu, G.-M., Qu, Z.-B., Zhuang, G.-L., Xie, Q., Meng, Q.-Q., Wang, J.-G. Journal of Physical Chemistry C 115 (30), pp. 14806-14811 0 (2011)

  • Alamri, S.N., Joraid, A.A. 2011 Materials Science Forum 663-665, pp. 743-750 0

  • Wang, D., Chen, X., Zhang, Q., Liu, Y., Liu, J., Hu, L. IEEE International Confrence on Nano/Micro Engineered and Molecular Systems, NEMS pp. 593-596 0 (2009)


88. S. Beke, S. Giorgio, L. Kőrösi, L. Nánai, W. Marine:

Structural and optical properties of pulsed laser deposited V2O5 thin films.



Thin solid Films, 516(15), 4659-4664 (2008)


  • Alamri S.N

Solar Energy Materialsand Solar Cells, 93(9), 1657 (2009)

  • Musschoot I., Deduytsche D., Poelman H., Haemers J. et al

J. of the Electrochemical Soc., 156(7), pp.122-126 (2009)

  • Ali H.M., Hakeem A.M.A.

Physica Status Solidi A., Applications and Materials Science, 207(1), pp.132-138 (2010)

  • Roi Levi, Maya Bar-Sadan, ana Albu-Yaron, Ronit Popovitz-Biro, Lothar Houben, Chen Shahar, Andrey Enyashin, Gotthard Seifert, Yehiam Prior, Reshef Tenne

  • J. Am. Chem. Soc., 132(32), pp.11214-11222 (2010)

Alamri S.N., Joraid A.A.

Materials Science Forum, Vol. 663-665, pp.743-750 (2011)

  • Patil C.E. et al

Mat. Chem. and Phys., 126(3), pp.711-716 (2011)

  • Cheremisin A.B. et al

Technical Phys. Lett., 37(1), pp.62-64 (2011)

  • Wen Q., Huang J.F., Cao L.Y., Wu J.P.

Synthesis of V 2O 5 powders by EDTA assistance ultrasound sol-gel process

Key Engineering Materilas 512-515, pp. 207-210 (2012)

  • López R., Gómez R.

Band-gap energy estimation from diffuse reflectance measurements on sol-gel and commercial TiO 2:A comparative study

Journal of Sol-Gel Science and Technology 61 (1) pp. 1-7. (2012)

  • Bouzidi A., Benramdane N., Bresson S., Mathieu C., Desfeux R., Marssi, M.E.

X-ray and Raman study of spray pyrolysed vanadium

Vibrational Spectroscopy 57 (2), pp. 182-186 (2011)

  • Bhardwaj M., Balani K., Balasubramaniam R., Pandey S., Agarwal A.

Effect of current density and grain refining agents on pulsed electrodeposition of nanocrystalline nickel

Surface Engineering 27 (9), pp. 642-648 (2011)

  • Avansi W., Maia L.J.Q., Ribeiro C., Leite E.R. Mastelaro V.R.

Local structure study of vanadium pentoxide 1D-nanosturctures

Journal of Nanoparticle Research 13 (10), pp. 4937-4946 (2011)

  • Zhu G.M., Qu Z.B. Zhuang G. L., Xie Q., Meng Q.Q, Wang J. G.

CO oxidation by lattice oxygen on V 2O 5 nanotubes

Journal of Physical Cemistry C 115 (30), pp. 14806-14811(2011)

  • Wang D., Chen X., Zhang Q., Liu Y., Liu J., Hu L.

Calculation of phase transformation of vanadium oxide using MD simulation and its validation by experimental values

4th IEEE International Conference on Nano/Micro Engineered and Molecular Systems, NEMS, pp. 593-596 (2009)

  • Levi R., Bar Sadan

M et al Materials 3 (8) pp. 4428-4445 (2010)

Zhu G.M.,…



The Journal of Phys. Chem., 115(30) (2011)

doi: 10.1021/jp2026175

  • Abazari R., Sanati S.

Chemical Engineering Journal 236 82-90 (2014)

  • Jeyalaskshmi K., Muralidharan G.

Philosophical Magazine 94 (9) pp. 946-955 (2014)

  • Abazari R., Sanati S., Saghatforoush L.A.

Chemical Engineering Journal 236 82-90 (2014)

  • O. Monfort, T. Rock

APUSUSC 28867 doi: 10.1016/j.apususc.2014.10.009

  • Dongphing Zhan et.al

Physica Status Solidi (A) 209(11) 2229-34 (2012)

doi: 10.10002/pssa 2012.28.11.

  • Ali H.M. Hakeem AMA

Phys. Stat.sol.(a) 207(1) 132-138 (2010)

  • Yu Goltvyanskyi, I. Khatsevyck

TSF 564 179-185 (2014)

  • Nikirin V.A.

TSF 564 179-185(2014)

  • Oliveria de V.S.

PhD Dessertation (2013) Univ.Fed. do Parana Seb. Technologia (UFPR) Curitiba

  • PhD Dissertation (2010) by CLL CALDERON Dept. of Phy.et Chem. of Fac. of Nat. Sciences UNL Columbia Manirales (Syntehsis and Characterisation PEG(V2O2)

  • Nikirin V.A.

TSF 564 179-185 (2014)

  • Cheremisin A. V. et al

Pisma v ZSTF 37(2) 22-8 (2010)

  • W. Young et al

J. of Sol-gel Science and Technology, Oct. 2015

doi: 10.1007/S10971-015-3889-8

P.D. Ray et al



J. of Mat. Sci.: Mat-s In Electronics, pp.1-7 (28.06.2016)

W. Yong et al



J. of Sol-gel Science and Techn., 77(3), 604-609 (2016)

Khartikheyan M. et al



Thin Solid Films, 606, 63-73 (2016)

doi: 10.13140/RG2.1.26345845

89. A.M. Balint, R. Szabo, L. Nánai, St. Balint:

Modeling vanadium oxide film growth in the spot of a CW CO2 laser.

Journal of Optoelectronics and Advanced Materials, Vol. 10, No. 9, 2425-2432 (2008)
90. Laszlo Nanai and Sandor Szatmari:

Pecularities of oxide micro- and nanostructures grown in the field of laser light.

World Journal of Engineering, 5(3), 346-347 (2008)


  • Kim, W.-T., Jeong, Y.U., Choi, H.C., Kim, Y.J., Song, J.H., Lee, H., Lee, Y.J. Journal of Applied Electrochemistry 41 (7), pp. 803-88


91. S. Beke, L. Kőrösi, S. Papp, A. Oszkó, L. Nánai:

XRD and XPS analysis of laser treated vanadium oxide thin films.

Applied Surface Science, 255, 9779-9782 (2009)


  • Kim W.T. et al

J. of Applied Electrochem., 41(7) (2011)

doi: 10.1007/S10800011-0299-7

  • Thingthing Li et.al

Photochemistry and photobiology (2012)

doi: 10.1111/php. 12019

  • Abbas Bagkeri Khasiba et al

J. of Mat. Sci. mat-s in electronics (2015)

doi: 10.1007/J 10854-015-3026-Z

  • Mjeri I. et al

Cheminform 45(34) (2014 aug.)

doi: 10.10021 chin. 201434011

Lin Chun-Te



Taoyuan Innovation Inst. of Technology (2016)

92. S. Beke, K. Sugioka, K. Midorikawa, A. Peter, L. Nánai, J. Bonse:

Characterization of the ablation of TeO2 crystals in air with femtosecond laser pulses.

Journal of Physics D-Applied Physics, 43(2), Art. No. 025401, ISSN 0022-3727 (2010)


  • Yan L., Jia S., Si J., Chen F., Yi W., Hou X

Influence of self-focusing effect on femtosecond collinear nondegenerate optical Kerr measurements

Optik 123 (8), pp. 722-725 (2012)

S. Park et al



Appl. Phys. A, 122-269 (04.2016)

doi: 10.1007/S00339-016-9791-6
93. L. Braescu, A. M. Balint, L. Nanai and St. Balint

Control Procedure for the Shape of a Nd: YAG Cylindrical Bar Created by Edge-Defined Film-Fed Growth as a Function of Pressure

International Journal of Theoretical Physics, Group Theory and Nonlinear Optics PP. 11(2), 121-128 (2011)
94. Beke S., Körösi L., Nánai L., Brandi F.:

In-situ optical emission spectroscopy of laser-induced

Vacuum 86 (12), pp. 2002-2004 (2012)


  • Abbas Bagkeri Khasiba et al

J. of Mat. Sci. mat-s in electronics (2015)

doi: 10.1007/J 10854-015-3026-Z

95. Farkas B., T. Nyberg T., Nánai L.

Flexible thin film transistors on planarized parylene substrate with recessed individual backgates

Solid-State Electronics 94 pp.11-14 (2014)
96. Füle M., NanaiL., Szkiva Zs., Sugioka K., Budai J.

Self Repeating Surface Morphology on Ultrashort Laser Pulse-Treated Vanadium Surface

JLMN Journal of Laser Micro/Nanoengineering Vol 9.(1) 46-50 (2014)
97. Katalin Sós, L. Nánai

Phyiscal Processes in Nature- The Soil

Horizons of Mathematics, Physics and Computers Sciences Vol.43. 37-43 (2014)
98. Katalin Sós, L. Nánai

Physical processes in Nature_The Water

Horizons of Mathematics, Physics and Computers Sciences Vol 45. 43-49 (2016)



  • Magyar kiadású szakmai folyóiratban magyar nyelven

  • Papers written in Hungarian and issued in Hungary


1. Burista F., Nánai L., Vajtai R., Hevesi I.:

A lézeres hőkezelés fizikai alapjai.

(Physical Principles of Laser Treatment.)

Gépgyártástechnológia, 29(4), 181-187 (1989), (Machine Technology)


2. Nánai L.:

Disszipativ struktúrák, lézerfény-anyag kölcsönhatás.

(Dissipative Structures, Laser-matter Interaction.)

Magyar Tudomány, 5, 563-572 (1994), (Hungarian Science)




  • Magyar kiadású ismeretterjesztő folyóiratban magyar nyelven

  • Papers for scientific information written in Hungarian


1. Nánai L.:

A káosz.

A fizika tanítása, MOZAIK Oktatási Stúdió, Szeged, 3, pp.3-7 (1999)
2. Nánai L.:

Nanostruktúrák-nanocsövek. (Nanostructures, nanotubes)

A fizika tanítása, MOZAIK Oktatási Stúdió, Szeged, pp.3-5, (1999) (5)
3. Nánai L.:

GUT (GUT – Grand Unified Theory)

A fizika tanítása, MOZAIK Oktatási Stúdió, Szeged, VIII. évf. 1. sz., pp.3-5 (2000)
4. Nánai L.:

Komplex jelenségek – egyszerű törvények.

A fizika tanítása, MOZAIK Oktatási Stúdió, Szeged, VIII. évf. 4. sz., pp.3-8 (2000)
5. Nánai L.:

A Lotka-Volterra modell, illetve a zero-izoklinek hasznossága.

(Utility of Lotka-Volterra model and zero isolines.)

A fizika tanítása, MOZAIK Oktatási Stúdió, Szeged, IX. évf. 2. sz., pp.3-5 (2001)


6. Nánai L.:

Egy érdekes mértékegységrendszerről…

(On the new system of units.)

A fizika tanítása, MOZAIK Oktatási Stúdió, Szeged, IX. évf. 4. sz., pp.20-22 (2001)


7. Nánai L.:

A Si nanoelektronika integrálhatóságának határai.

(Limits of integration of Si nanoeletronics.)

A fizika tanítása, MOZAIK Oktatási Stúdió, Szeged, IX. évf. 5. sz., pp.3-5 (2001)


8. L. Nánai, George T.F.:

A tudományos módszerről a felsőoktatásban.

(On the theoretical methods in college education.)

Magyar Felsőoktatás 2002/1-2, pp.34-35 (2002)


9. Nánai L., George T.F.:

A gondolatkísérletről a fizikában.

(About the thinking experiment)

A fizika tanítása, MOZAIK Oktatási Stúdió, Szeged, X. évf. 2. sz., pp.3-5 (2002


10. Nánai L.:

Fotonika: Mi is az valójában?

(Photonics, what is it in reality?)

A fizika tanítása, MOZAIK Oktatási Stúdió, Szeged, X. évf. 5. sz., pp.3-5 (2002)


11. Nánai L.:

A porózus (szivacsos) szilícium.

A fizika tanítása, MOZAIK Oktatási Stúdió, Szeged, XI. évf. 1. sz., pp.3-4 (2003)
12. Nánai L.:

A természeti és társadalmi jelenségek egyetemes törvényszerűségéről.

Fizika, Erdélyi Magyar Műszaki Tudományos Társaság, Kolozsvár, 12. évf. 6. sz., pp.226-231 (2003)
13. Nánai L.:

A relativitáselmélet, mint a komplex tér-idő elmélet.

A fizika tanítása, MOZAIK Oktatási Stúdió, Szeged, XI. évf. 3. sz., pp.3-4 (2003)
14. Nánai L.:

A plazmatévé működési elve.

(The working principle of plasma TV-s.)

A fizika tanítása, MOZAIK Oktatási Stúdió, Szeged, XI. évf. 4. sz., pp.3-5 (2003)


15. Nánai L.:

In memoriam Dr. Kövesdi Pál

A fizika tanítása MOZAIK Oktatási Stódió 11.(5) 35-36 (2003) ISSN: 1216 6634
16. Nánai L.:

A jövő üzemanyagforrása a hidrogén?

A fizika tanítása, MOZAIK Oktatási Stúdió, Szeged, XI. évf. 5. sz., pp.3-4 (2003)
17. Nánai L.:

Az inverz Doppler-jelenség.

A fizika tanítása, MOZAIK Oktatási Stúdió, Szeged, XII. évf. 1. sz., pp.3-5 (2004)
18. Nánai L., Sós K.:

A globális felmelegedésről.

(On the global warming.)

A fizika tanítása, MOZAIK Oktatási Stúdió, Szeged, XII. évf. 3. sz., pp.3-5 (2004)


19. Nánai L.:

Az intelligens E-bomba.

(The intelligent E-bomb.)

A fizika tanítása, MOZAIK Oktatási Stúdió, Szeged, XII. évf. 4. sz., pp.3-4 (2004)


20. Nánai L.:

Színes kvarkok – a 2004-es Nobel-díj margójára.

A fizika tanítása, MOZAIK Oktatási Stúdió, Szeged, XIII. évf. 3. sz., pp.3-5 (2005)
21. Nánai L.:

A szén, mint a szerves világ meghatározó alkotóeleme.

(The carbon as a dominant element of the organic world.)

A fizika tanítása, MOZAIK Oktatási Stúdió, Szeged, XIV. évf. 2. sz., pp.3-5 (2006)


22. Nánai L.:

Csodatorony Szegeden.

Fizikai Szemle, ELFT, Budapest, 2006/10., pp.352-354 (2006)
23. Nánai L.:

Visszatekintés a fizika évére.

(Took back for physic’s year.)

A fizika tanítása. MOZAIK Oktatási Stúdió, Szeged, XV. évf. 2. sz., pp.3-5 (2007)


24. Sós Katalin, Nánai László:

A fizika szerepe a természettudományok oktatásában.

A fizika tanítása, MOZAIK Kiadó, Szeged, 2009/2., XVII. évf.
25. Sós Katalin, Nánai László:

Az energiaproblémáról.

A fizika tanítása, MOZAIK Kiadó, Szeged, 2009/4., XVII. évf.
26. Sós Katalin, Nánai László:

Energiaválság, energiahatákonyság.

A fizika tanítása, MOZAIK Kiadó, Szeged, 2010/1., XVIII. évf.
27. Nánai László:

Népességnövekedés – fizikus szemmel

A fizika tanítása, MOZAIK Kiadó, Szeged, 2012/1., XX. évf. pp. 3-6 (2012)

Egyetemi jegyzetek magyar nyelven

University textbooks in hungarian
1. Dr. I. Hevesi:

Fizikai feladatok I. (Problems in Physics I.)

JATE Univ. Press, Szeged (1975)
2. Dr. L. Gáti:

Fizikai feladatok II. (Problems in Physics II.)

JATE Univ. Press, Szeged (1975)
3. Á. Süli, L. Michalovits:

Kiegészítés a III. évf. fizika laboratóriumi gyakorlatokhoz. (Supplements to 3rd years laboratory practicals.)

JATE Univ. Press, Szeged (1979)
4. Budó Ágoston feladatmegoldó verseny feladatai és megoldásai. (Problems and their solutions; Budó Ágoston competition.)

Issued by MOZAIK, Szeged (H) (1994)


5. Bálint Á., Sós K., Nánai L., Bálint I.:

Környezetfizikai folyamatok matematikai modellezése.

EU–PHARE, Ed. Szeged (2005)
6. Sós K., Bálint Á., Nánai L., Bálint I.:

A környezetfizika alapjai.

EU–PHARE, Ed. Szeged (2005)
7. Sós Katalin (szerk.):

Környezetfizika.

Egyetemi tankönyv, Ch. Z. Az atmoszféra. pp. 53-86

SZTE Kiadó, Szeged (2016)

ISBN 978-615-5455-38-4

Egyetemi jegyzetek idegen nyelven

University textbooks issued abroad
1. A.M. Bálint, K. Sós, L. Nánai, S. Bálint:

Modelarea matematică a unor procese de fizica mediului.

EU–PHARE, Ed. Szeged (2005)
2. K. Sós, L. Nánai, A.M. Bálint, S. Bálint:

Elementa de fizica mediului.

EU–PHARE, Ed. Szeged (2005)

Könyvek és könyvfejezetek magyar nyelven

Books and book chapters in Hungarian
1. Hevesi I., Nánai L., Voroncov V.F.:

Félvezetők optikai tulajdonságai (in Hungarian). (Optical properties of semiconductors.)

Publ. JATE Univ., Szeged (1981) (H)
2. Nánai L.:

“Disszipativ struktúrák: lézerfény-anyag kölcsönhatás”.

(Dissipative structures: interaction of laser light with matter.)

in “A Tudomány Egésze: A magyar tudomány tudománypedagógiai szemléje.”

ed.: Zsolnai József, Műszaki Könyvkiadó, Budapest (2006) PC – CD-ROM melléklettel

ISBN 96316 4040 x, p. 234

(The Whole Science: review of sciencepedagogy of Hungarian science) with CD supplement


  1. Nánai L., Szatmári S.:

Nagyintenzitású lézerek és Alkalmazásaik (II.fejezet) in Doktori (PhD)-Kurzusok Fizikából (a. rész) (in Hungarian)

ed.: Hevesi Imre

pp.45-78

SZEK JGYF KIADÓ (2012)



Könyvek és könyvfejezetek idegen nyelven

Books and book chapters issued abroad
1. Hevesi I., Nánai L., Voroncov V.F.:

Opticeshkiye Ivoystva Polyprovodnikov (in Russian). (Optical properties of semiconductors.)

Publ. State University Odessa (1981) (RU)


  • UFN 136/2, 365 (1982)



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