List of Publications

Géza I. Márk

Nanostructures Laboratory
MFA Research Institute for Technical Physics and Materials Science
H-1525 Budapest, P.O.Box.49., Hungary

mark@sunserv.kfki.hu

19. November 20041



Papers


  1. Pacher, Pál; Márk, Géza; Udvardi, László; Varga, Imre: Teaching physics by means of computer modelling;
    Computer Physics Communications 61, 260(1990).


  1. Kojnok, József; Krasser, W.; Márk, Géza; Stepanjuk, V., S.; Katsnelson, A., A.: Local density of states in amorphous Ni-P alloys;
    J. Phys.: Condens. Matter 4, 2487(1992).


  1. Márk, Géza, I.: Analysis of the spreading Gaussian wave packet;
    European Journal of Physics 18, 47(1997).
    http://www.iop.org/EJ/S/0/M5003/aNQbFUK4EQIS8wTGFSpuwA/abstract/-search=1944957.1/0143-0807/18/3/022
    http://www.mfa.kfki.hu/int/nano/preprint/gauss1997.pdf

  2. Biró, L., P.; Gyulai, J.; Lambin, Ph.; Nagy, J., B.; Lazarescu, S.; Márk, G., I.; Fonseca, A.; Surján, P., R.; Szekeres, Zs.; Thiry, P., A.; Lucas, A., A.: Scanning tunnelling microscopy (STM) imaging of carbon nanotubes;
    Carbon 36, 689(1998).
    http://www.mfa.kfki.hu/int/nano/pub/emrs97/index.html
    http://www.mfa.kfki.hu/int/nano/reprint/Carbon_36_689.pdf

  3. Márk, Géza, I.; Biró, László, P.; Gyulai, József: Simulation of STM images of 3D surfaces and comparison with experimental data: carbon nanotubes;
    Phys. Rev. B 58, 12645(1998).
    http://ojps.aip.org/journal_cgi/getabs?KEY=PRBMDO&cvips=PRBMDO000058000019012645000001&gifs=No
    http://www.mfa.kfki.hu/int/nano/reprint/prb_58_12645.pdf

  4. Biró, László, Péter; Márk, Géza, I.; Gyulai, József; Havancsák, Károly; Lipp, S.; Lehrer, Ch.; Frey, L.; Ryssel, H.: AFM and STM investigation of carbon nanotubes produced by high energy ion irradiation of graphite;
    Nucl. Instr. Meths.B. 147, 142(1999).
    http://www.mfa.kfki.hu/int/nano/preprint/emrs98_j/

  5. Biró, László, P.; Szabó, Bálint; Márk, Géza, I.; Gyulai, József; Havancsák, Károly; Kürti, Jenő; Dunlop, A.; Frey, L.; Ryssel, H.: Carbon nanotubes produced by high energy (E > 100 MeV), heavy ion irradiation of graphite;
    Nucl. Instr. Meths.B. 148, 1102(1999).
    http://www.mfa.kfki.hu/int/nano/preprint/ibmm98/

  6. Biró, László, Péter; Márk, Géza, I.; Gyulai, József; Rozlosnik, Noémi; Kürti, Jenő; Szabó, Bálint: Scanning probe method investigation of carbon nanotubes produced by high energy ion irradiation of graphite;
    Carbon 37, 739(1999).
    http://www.mfa.kfki.hu/int/nano/preprint/emrs98_k/

  7. Biró, László, P.; Gyulai, József; Márk, Géza, I.; Daróczi, Csaba, S.: Defects caused by high-energy ion beams, as measured by scanning probe methods;
    Micron 30, 245(1999).


  1. Biró, L., P.; Márk, G., I.; Gyulai, J.; Thiry, P., A.: STM and AFM investigation of carbon nanotubes;
    Materials Structure 6, 104(1999).
    http://www.mfa.kfki.hu/int/nano/pub/ecm18/

  2. Márk, Géza, I.; Biró, László, P.; Gyulai, József; Thiry, Paul, A.; Lucas, Amand, A.; Lambin, Philippe: Simulation of scanning tunneling spectroscopy of supported carbon nanotubes;
    Phys. Rev. B 62, 2797(2000).
    http://ojps.aip.org/journal_cgi/getabs?KEY=PRBMDO&cvips=PRBMDO000062000004002797000001&gifs=Yes
    http://www.mfa.kfki.hu/int/nano/reprint/prb_62_2797.pdf

  3. Márk, Géza, I.; Koós, Antal; Osváth, Zoltán; Biró, László, P.; Gyulai, József; Benito, Ana, M.; Maser, Wolfgang; Thiry, Paul, A.; Lambin, Philippe: Calculation of the charge spreading along a carbon nanotube seen in STM;
    Diamond and Related Materials , 11, 961(2002).
    http://www.mfa.kfki.hu/int/nano/reprint/diamrelmat_11_961.pdf

  4. Biró, László, P.; Márk, Géza, I.; Koós, Antal, A.; Nagy, János, B.; Lambin, Philippe: Coiled carbon nanotube structures with supraunitary nonhexagonal to hexagonal ring ratio;
    Phys. Rev. B 66, 165405-1(2002).
    http://ojps.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000066000016165405000001&idtype=cvips&gifs=Yes
    http://www.mfa.kfki.hu/int/nano/reprint/prb_66_165405_Coil.pdf

  5. Biró, L., P.; Bálint, Zs.; Kertész, K.; Vértesy, Z.; Márk, G., I.; Horváth, Z., E.; Balázs, J.; Méhn, D.; Kiricsi, I.; Lousse, V.; Vigneron, J.-P.: Role of photonic-crystal-type structures in the thermal regulation of a lycaenid butterfly sister species pair;
    Phys. Rev. E 67, 021907-1(2003).
    http://www.mfa.kfki.hu/int/nano/reprint/pre_67_021907_butterfly.pdf
    http://ojps.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PLEEE8000067000002021907000001&idtype=cvips&gifs=Yes

  6. Lambin, Ph.; Márk, G., I.; Biró, L., P.: Structural and electronic properties of coiled and curled carbon nanotubes having a large number of pentagon–heptagon pairs;
    Phys. Rev. B 67, 205413-1(2003).
    http://ojps.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000067000020205413000001&idtype=cvips&gifs=yes
    http://www.mfa.kfki.hu/int/nano/reprint/prb_67_205413_Coil.pdf

  7. Lambin, Philippe; Márk, Géza, I.; Meunier, Vincent; Biró, László, P.: Computation of STM images of carbon nanotubes;
    Int. J. Qunatum.. Chem. 95, 495(2003).
    http://www3.interscience.wiley.com/cgi-bin/abstract/104528199/ABSTRACT
    http://www.mfa.kfki.hu/int/nano/reprint/IntJQuantChem_95_493_STMSimul.pdf

  8. Biró,László,P.; Márk,Géza,I.; Lambin,Philippe: Regularly coiled carbon nanotubes;
    IEEE Transactions on Nanotechnology 2, 362(2003).
    http://www.mfa.kfki.hu/int/nano/reprint/IEEETransNanotech_2_362_Coil.pdf

  9. Biró,L.,P.; Horváth,Z.,E.; Márk,G.,I.; Osváth,Z.; Koós,A.,A.; Benito,A.,M.; Maser,W.; Lambin,Ph.: Carbon nanotube Y junctions: growth and properties;
    Diamond and Related Materials 13, 241(2004).
    http://www.mfa.kfki.hu/int/nano/preprint/diamond_13_241_Y.pdf

  10. Biró,L.,P.; Márk,G.,I.; Horváth,Z.,E.; Kertész,K.; Gyulai,J.; Nagy,J.,B.; Lambin,Ph.: Carbon nanoarchitectures containing non-hexagonal rings: “necklaces of pearls”;
    Carbon 42, 2561(2004).
    http://www.mfa.kfki.hu/int/nano/reprint/Carbon_v42_p2561_Necklace.pdf

  11. Márk,Géza,I.;Biró,László,P.;Lambin,Philippe: Calculation of axial charge spreading in carbon nanotubes and nanotube Y-junctions during STM measurement;
    Phys. Rev. B 70, 115423-1(2004).
    http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000070000011115423000001&idtype=cvips&gifs=yes
    http://www.mfa.kfki.hu/int/nano/reprint/prb_70_115423_3d.pdf



Book Chapters


  1. Biró, László, Péter; Márk, Géza, I.; Balázs, Erzsébet: STM "tip changes" - a possible tool for tip characterization; Nanophase Materials, NATO ASI Series (Kluwer Academic Publishers,1994) , p. 205.
    http://www.mfa.kfki.hu/int/nano/pub/corfu1993/index.html
    http://www.mfa.kfki.hu/int/nano/preprint/corfu1993.pdf

  2. Biró, László, P.; Márk, Géza, I.:STM investigation of carbon nanotubes; Carbon filaments and nanotubes: Common origins, differing applications, NATO ASI Series (Kluwer, Dordrecht,2001) , p. 219.


  1. Márk, Géza, I.; Biró, László, P.; Lambin, Philippe: Modeling and interpretation of STM images of carbon nanosystems; Frontiers in Molecular-Scale Science and Technology of Fullerene, Nanotube, Nanosilicon, Biopolymer (DNA, Protein) Multifunctional Nanosystems, NATO ASI Series (Kluwer, Dordrecht,2002) , p. 43.
    http://www.mfa.kfki.hu/int/nano/preprint/kiev2001.pdf




Conferences


  1. Vasvári, Béla; Márk, Géza: Electronic density of states for amorphous alloys of titanium-copper; in Proceedings of the Int.Conf. on Rapidly Quenched Metals, Würtzburg 1984 (poster, proceedings, Pergamon,New York, 1985).


  1. Balázs, Erzsébet; Papp, Gyöngyi; Márk, Géza: Calculation of tunnel current along semiclassical trajectories for STM; EPS 8th General Conference of the Condensed Matter Division (poster, unpublished, 1988).
    http://www.mfa.kfki.hu/int/nano/pub/eps1988/index.html

  2. Pacher, Pál; Márk, Géza; Udvardi, László; Varga, Imre: Teaching physics by means of computer modelling; in Man-machine interface in scientific environment, Eighth Summer School on Computing Techniques in Physics, Skalsky dvur, Czechoslovakia, edited by Nadrchal, J. (Union of Czechoslovak Mathematicians and Physicists, Praha, 1989) , p. 245.


  1. Márk, Géza, I.; Balázs, Erzsébet: Calculation of effects of tunnel junction geometry in scanning tunnelling microscopy; International Conference on Scanning Tunnelling Microscopy, Interlaken 1991 (poster, unpublished, 1991).
    http://www.mfa.kfki.hu/int/nano/pub/stm1991/index.html

  2. Biró, László, Péter; Márk, Géza, I.; Gyulai, József; Balázs, Erzsébet: Some effects of ion implantation on the corrugation periodicity of HOPG; 4th European Conference on Surface and Interface Analysis, Budapest 1991 (poster, unpublished, 1991).


  1. Pacher, Pál; Márk, Géza: Computer simulation in education; Trans-Eupropean Cooperation in Engineering Education, CTU Prague, June 24-26, 1992 (oral, unpublished, 1992).


  1. Pacher, Pál; Márk, Géza, I.: A learning aid for the study of time dependent quantum phenomena; in Proceedings, Computer based learning in science, Wien, 1993. December 18-21, edited by Nobar,P.,M.;Kainz,W. (oral, proceedings, 1994).


  1. Márk, G., I.; Pacher, Pál: The study of time dependent scattering using Fourier transform technique; in Proceedings, ICOMM'95, International conference on mathematical methods in science and Technology, 3-6 June 1995, Vienna, edited by Kainz,W. (oral, proceedings, 1995) , p. 59.


  1. Nagy, Péter; Márk, Géza, I.; Balázs, Erzsébet: Determination of SPM tip shape using polystyrene latex balls; in Microbeam and Nanobeam Analysis (Mikrochimica Acta, Suppl.13), edited by Benoit;et al (Springer Verlag, 1996) , p. 425.
    http://www.phy.bme.hu/pub/emas95/index.html

  2. Márk, G., I.: "Good functions" in tunneling calculations; in Proceedings, Adriatico Research Conference: "Tunneling and Its Implications", 30 July - 2 August 1996, ICTP Trieste, Italy, edited by Mugnai,D.;et al (World Scientific,Singapore,1997) , p. 443.


  1. Márk, G., I.: Dynamical calculation of tunnel current for STM; in Abstract Booklet, , NANO IV (Fourth International Conference on Nanometer-Scale Science & Technology, 8-12 September 1996, Beijing, China (oral, unpublished, 1996) .


  1. Márk, G., I.; Biró, L., P.; Gyulai, J.: Computer simulation of the STM imaging of nanometric 3D objects on support: carbon nanotubes; in Electronic Properties of Novel Materials -- Progress in Molecular Nanostructures, 28 February - 3. March 1998, Kirchberg, Austria, Vol. 442, Ser. AIP Conference Proceedings, edited by Kuzmany,Hans; Fink,Jörg; Mehring,Michael; Roth,Siegmar (American Institute of Physics,Woodbury, New York, 1998) , p. 164.
    http://www.mfa.kfki.hu/int/nano/pub/kirchberg98/

  2. Márk, G., I.; Biró, L., P.; Gyulai, J.; Thiry, P., A.; Lambin, Ph.: The use of computer simulation for the investigation of tip shape and point contact effects during the scanning tunneling microscope investigation of supported nanostructures; in Electronic Properties of Novel Materials -- Science & Technology of Molecular Nanostructures, 27 February - 6. March 1999, Kirchberg, Austria (special poster, 1999) .
    http://www.mfa.kfki.hu/int/nano/pub/kirchb99/index.html
    http://www.mfa.kfki.hu/int/nano/preprint/iwepnm99/

  3. Pacher, Pál; Márk, Géza, I.: Kinetic gas model - an aid in learning some basic concepts of statistical physics; in Computer Based Learning in Science Proceedings, Vol. J1, edited by Chapman,Graham,M. (Pedagogical Faculty of University of Ostrava,Ostrava, Czech Republic,1999) , p. 1.
    http://www.kfki.hu/physics/physedu/kinetic_gas_model/

  4. Márk, Géza, I.; Biró, László, P.; Gyulai, József; Thiry, Paul, A.; Lambin, Philippe: Wave packet dynamical simulation of scanning tunneling spectroscopy of supported nanostructures; in Inter. Symp. on Cluster&Nanostructure Interfaces, October 25-28, 1999, Richmond, VA, USA (2000) .


  1. Márk, Géza, I.; Biró, László, P.; Gyulai, József; Thiry, Paul, A.; Lambin, Philippe: Computer simulation of scanning tunneling spectroscopy of supported carbon nanotube aggregates; in Electronic Properties of Novel Materials -- Molecular Nanostructures, 4-11 March 2000, Kirchberg, Austria, Vol. 544, AIP Conference Proceedings, edited by Kuzmany,Hans; Fink,Jörg; Mehring,Michael; Roth,Siegmar (American Institute of Physics,Melville, New York, 2000) , p. 303.
    http://www.mfa.kfki.hu/int/nano/preprint/iwepnm2000.pdf

  2. Márk, Géza, I.; Biró, László, P.; Koós, Antal; Osváth, Zoltán; Gyulai, József; Benito, Ana, M.; Thiry, Paul, A.; Lambin, Philippe: Charge spreading effects during 3D tunneling through a supported carbon nanotube; in Electronic Properties of Novel Materials -- Molecular Nanostructures, 3-10 March 2001, Kirchberg, Austria, AIP Conference Proceedings, edited by Kuzmany,Hans; Fink,Jörg; Mehring,Michael; Roth,Siegmar (American Institute of Physics, Melville, New York, 2001) , p. 364.
    http://www.mfa.kfki.hu/int/nano/online/kirchberg2001/
    http://www.mfa.kfki.hu/int/nano/preprint/iwepnm2001.pdf

  3. Márk, Géza, I.; Biró, László, P.; Gyulai, József; Kónya, Zoltán; Lambin, Philippe: Full three-dimensional wave-packet dynamical calculations of STM images of nanotube Y-junctions; in Electronic Properties of Novel Materials -- Molecular Nanostructures, 2-9 March 2002, Kirchberg, Austria, Vol. 633, Ser. AIP Conference Proceedings, edited by Kuzmany,Hans; Fink,Jörg; Mehring,Michael; Roth,Siegmar (American Institute of Physics, Melville, New York, 2002) , p. 381.
    http://www.mfa.kfki.hu/int/nano/preprint/iwepnm2002.pdf

  4. Pacher, Pál; Biró, László, P.; Lambin, Philippe; Márk, Géza, I.: Time-dependent scattering in 3D; in Physics Teaching in Engineering Education, 5-7 June 2002, KU Leuven, Belgium (2002, proceedings published on CD, ISBN 90-5682-359-0) , oral
    http://www.mfa.kfki.hu/int/nano/preprint/ptee2002.pdf

  5. Márk, Géza I., Biró, László P., Lambin, Philippe: Wave packet dynamical simulations of STM images of carbon nanostructures; Joint COST Action Workgroup Meeting on Individual and Assembled Nanoparticles and Quantum Dots, Leuven, 25-27 April 2002


  1. Osváth, Zoltán; Fulcheri, Laurent; Márk, Géza, I.; Tapasztó, Levente; Gyulai, József; Biró, László, P.: STM and STS investigation of few wall carbon nanotubes containing non-hexagonal carbon rings; in Nanotechnology, 19-21 May 2003 Maspalomas, Gran Canaria, Spain, Vol. 5118, edited by Vajtai,Robert;Aymerich,Xavier;Kish,László,B.;Rubio,Angel (Proceedings of SPIE - The International Society for Optical Engineering,2003) , p. 587. , poszter


  1. Tapasztó, L.; Márk, G., I.; Gyulai, J.; Lambin, Ph.; Kónya, Z.; Biró, L., P.: Geometrical effects of wave functions of carbon nanosystems; in Electronic Properties of Novel Materials -- Molecular Nanostructures, 8 - 15. March 2003, Kirchberg, Austria, Vol. 685, Ser. AIP Conference Proceedings, edited by Kuzmany,Hans;Fink,Jörg;Mehring,Michael;Roth,Siegmar (American Institute of Physics,Melville, New York,2003) , p. 439.
    http://www.mfa.kfki.hu/int/nano/preprint/iwepnm2003_GeomEff.pdf


  1. Márk,G.,I.; Biró,L.,P.; Tapasztó,L.; Mayer,A.; Lambin,Ph.: Atomic pseudopotential model for wave packet tunneling through a carbon nanotube; in Electronic Properties of Synthetic Nanostructures, 6-13 March 2004, Kirchberg, Austria, Vol. 723, Ser. AIP Conference Proceedings, edited by Kuzmany,Hans; Fink,Jörg; Mehring,Michael; Roth,Siegmar (American Institute of Physics,Melville, New York,2004) , p. 389.
    http://www.mfa.kfki.hu/int/nano/preprint/iwepnm2004_Atomic.pdf



Contributions in Hungarian technical journals (in Hungarian)


  1. Mathematical formula manipulation systems; Mikroszámítógép Magazin , 5 (1985) p. 14.
    http://www.mfa.kfki.hu/int/nano/pub/MikroszMag1985_5/index.html


  1. "Shoeing of a flea" - nanostructure research in KFKI; Élet és Tudomány 20 (1994) p.634.


  1. Basic modern physics in the education curriculum of technology managers; Fizikai Szemle 1997/9.


Other works published abroad


  1. Vasvári, Béla; Lahdeniemi, Matti; Márk, Géza: Cluster calculations on alloys; DESY, Hamburg, Annual Research Report, 1985.


  1. Molecular Dynamics (TEDDY TURBO Kinetic Gas Model); Computers in Physics, Vol.6. No.4. Jul/Aug 1992. New Products section, p. 428.


Talks in abroad


  1. Tunnel current calculations for STM; University of Basel.
    March 1991


  1. Spectrum limited wave packets in tunneling calculations; Ruder Boskovic Institute (Zagreb, Croatia),
    April 1997.


  1. Scattering of a wave-packet at the STM tip-nanotube interface; Facultés Universitaires Notre Dame de la Paix, 61, Rue de Bruxelles, B-5000 Namur, Belgium, LPS Szeminárium,
    17. December 1998.


  1. Géza,I.,Márk; László,P.,Biró: Wave packet dynamical simulation of tunneling through supported nanotubes in STM configuration; PAI-IUAP P4/10 on Reduced Dimensionality Systems, FUNDP, Namur, Belgium,
    15. November 1999.


  1. Novel carbon nanostructures – a proposal for collaboration; COST 523 Materials Action Joint WG Meeting on Nano-Structured Materials, Brussels
    10. November 2003.


  1. G. I. Márk, L. Tapasztó, and L. P. Biró: Tunneling through supported carbon nanostructures; Slovak – Hungarian workshop on “Nanotechnology in research and application”, Bratislava
    29. March 2004.



Important Hungarian technical talks


  1. Tunneling path and tunneling time? Semiclassical and quantum mechanical investigation of the tunnel effect; (KFKI seminar)
    March 12, 1993.


  1. G. I. Márk and P. Pacher: Demonstration of some basic phenomena in physics by computer simulations; National Annual Symposium for Secondary School Teachers (Debrecen).
    April 7, 1994.


  1. Multidimensional tunneling -- the challenge of STM; IUVSTA Symposium on the Investigation and Preparation of Nanometric Systems.
    September 7, 1995.


  1. Simulation of STM images of nanometric 3D objects: carbon tubes; . Materials science in nanometric size ELFT Autumn School (Visegrád)
    October 14, 1997.


  1. G. I. Márk, L. P. Biró, and J. Gyulai: Computer modeling of tunneling in supported supramolecular systems; Invited talk in the Theoretical Physical Chemistry Committee (KKKI).
    January 26, 1997.


  1. Márk Géza, Biró László, and Gyulai József: Simulation of Scanning Tunneling Spectra for carbon nanotubes; MFA Seminar
    22. March 2000.


  1. Géza I. Márk and Levente Tapasztó: QM simulation of STM imaging of carbon nanosystems; Materials Science and Quantum Mechanics, ELFT Autum School (Tata)
    29. September 2003.


  1. Wave packet dynamical simulation of STM imaging of carbon nanosystems; „Solid state research and materials sceince 2004”, „Nanophysics” – Workshop of the Solid State Physics Committee of the Hungarian Academy of Sciences, invited talk
    17. May 2004.


  1. Simulation of scanning tunneling microscopy imaging of carbon nanosystems; General Meeting of the Roland Eötvös Physical Society, Szombathely,
    25. August 2004.


  1. Géza I. Márk and Levente Tapasztó: Axial charge spreading in carbon nanotubes and nanotube Y-junctions during STM measurement; MFA Seminar
    8. Sept. 2004.


  1. Calculation of charge spreading in carbon nanosystems during STM measurement;
    2nd Szeged International Workshop on Advances in Nanoscience, Szeged
    30. Sept. 2004.



On-line works


  1. Kinetic gas model; (1998) (English and Hungarian)
     http://www.kfki.hu/physics/physedu/kinetic_gas_model/index.html


  1. Time development of quantum mechanical systems; (1995) (English and Hungarian)
     http://www.kfki.hu/physics/physedu/schrodinger/index.html


  1. Homepage of the MFA Nanostructures Laboratory; (1997 - ) (English and Hungarian)
    http://www.mfa.kfki.hu/int/nano/


  1. Homepage of the MFA Nanotechnology Departement; (2004 – ) (English and Hungarian)
    http://www.nanotechnology.hu



1 The always up to date version of this publication list is available from on-line Publication Database of our Laboratory. See:

http://www.mfa.kfki.hu/int/nano/cgi-bin/wps.cgi?Command=search&DataBaseName=nano&Field=Authors&Pattern=M.rk


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