{"id":44896,"date":"2018-11-29T11:14:10","date_gmt":"2018-11-29T11:14:10","guid":{"rendered":"https:\/\/www.upjs.sk\/prirodovedecka-fakulta\/inst\/inst-ph\/research\/publications\/"},"modified":"2022-11-15T12:26:02","modified_gmt":"2022-11-15T11:26:02","slug":"publications","status":"publish","type":"page","link":"https:\/\/www.upjs.sk\/prirodovedecka-fakulta\/en\/research\/publications\/","title":{"rendered":"Selected publications"},"content":{"rendered":"

Molecular magnets and mixed spin systems:<\/a><\/h2>\n
    \n
  1. M. \u017dukovi\u010d and M. Semjan, Magnetization process and magnetocaloric effect in geometrically frustrated Ising antiferromagnet and spin ice models on a \u2018Star of David\u2019 nanocluster, J. Magn. Magn. Mater. 451 (2018) 311.<\/li>\n
  2. V. Ohanyan, O. Rojas, J. Stre\u010dka, S. Bellucci, Absence of actual plateaus in zero-temperature magnetization curves of quantum spin clusters and chains, Phys. Rev. B 92 (2015) 214423.<\/li>\n
  3. B. Lisnyi, J. Stre\u010dka, Exactly solved mixed spin-(1,1\/2) Ising-Heisenberg diamond chain with a single-ion anisotropy, J. Magn. Magn. Mater. 377 (2015) 502-510<\/li>\n
  4. M. \u017dukovi\u010d, A. Bob\u00e1k, Mixed spin-1\/2 and spin-1 Ising ferromagnets on a triangular lattice, Physica A 436 (2015) 509-518.<\/li>\n
  5. J. Stre\u010dka, J. \u010cis\u00e1rov\u00e1, Order-from-disorder effect in the exactly solved mixed spin-(1\/2,1) Ising model on fully frustrated triangles-in-triangles lattices, Physica A 392 (2013) 5633.<\/li>\n<\/ol>\n

    Frustrated spin systems:<\/a><\/h2>\n
      \n
    1. A. Bob\u00e1k, E. Jur\u010di\u0161inov\u00e1, M. Jur\u010di\u0161in, M. \u017dukovi\u010d, Frustrated spin-1\/2 Ising antiferromagnet on a square lattice in a transverse field, Phys. Rev. E 97 (2018) 022124-1-7.<\/li>\n
    2. A. Bob\u00e1k, E. Jur\u010di\u0161inov\u00e1, M. Jur\u010di\u0161in, M. \u017dukovi\u010d, Frustrated spin-1\/2 Ising antiferromagnet on a square lattice in a transverse field, Phys. Rev. E 97 (2018) 022124-1-7.<\/li>\n
    3. T. Verkholyak, J. Stre\u010dka, Fractional magnetization plateaus of the spin-1\/2 Heisenberg orthogonal-dimer chain: Strong-coupling approach developed from the exactly solved Ising-Heisenberg model, Phys. Rev. B 94 (2016) 144410.<\/li>\n
    4. J. Stre\u010dka, C. Ekiz, Presence or absence of order by disorder in a highly frustrated region of the spin-1\/2 Ising-Heisenberg model on triangulated Husimi lattices, Phys. Rev. E 91 (2015) 052143.<\/li>\n
    5. T. Verkholyak, J. Stre\u010dka, F. Mila, K.P. Schmidt, Exact ground states of a spin-1\/2 Ising-Heisenberg model on the Shastry-Sutherland lattice in a magnetic field, Phys. Rev. B 90 (2014) 134413.<\/li>\n<\/ol>\n

      Generalized continuous spin systems<\/a><\/h2>\n

      1.\u00a0\u00a0\u00a0 M. \u017dukovi\u010d and G. Kalagov, Magnetic quasi-long-range ordering in nematic systems due to competition between higher-order couplings, Phys. Rev. E 97 (2018) 052101.<\/p>\n

      2.\u00a0\u00a0\u00a0 M. \u017dukovi\u010d and G. Kalagov, XY model with higher-order exchange, Phys. Rev. E 96 (2017) 022158.<\/p>\n

      3.\u00a0\u00a0\u00a0 M. \u017dukovi\u010d, Frustrated ground states of a generalized XY model and their mapping to nonmagnetic structural analogs, Phys. Rev. B 94 (2016) 014438.<\/p>\n

      Correlated spin and electron systems:<\/a><\/h2>\n

      1.\u00a0\u00a0\u00a0 J. Torrico, M. Rojas, M. S. S. Pereira, J. Stre\u010dka, M.L. Lyra, Spin frustration and fermionic entanglement in an exactly solved hybrid diamond chain with localized Ising spins and mobile electrons, Phys. Rev. B 93 (2016) 014428.<\/p>\n

      2.\u00a0\u00a0\u00a0 H. \u010cen\u010darikov\u00e1, J. Stre\u010dka, M.L. Lyra, Reentrant phase transitions of a coupled spin-electron model on doubly decorated planar lattices with two or three consecutive critical points, J. Magn. Magn. Mater. 401 (2016) 1106-1122.<\/p>\n

      3.\u00a0\u00a0\u00a0 J. Stre\u010dka, J. \u010cis\u00e1rov\u00e1, Doping-dependent magnetization plateaus of a coupled spin-electron chain: exact results, Mater. Res. Express 3 (2016) 106103.<\/p>\n

      4.\u00a0\u00a0\u00a0 L. G\u00e1lisov\u00e1, J. Stre\u010dka, Vigorous thermal excitations in a double-tetrahedral chain of localized Ising spins and mobile electrons mimic a temperature-driven first-order phase transition, Phys. Rev. E 91 (2015) 022134.<\/p>\n

      5.\u00a0\u00a0\u00a0 J. Stre\u010dka, H. \u010cen\u010darikov\u00e1, M.L. Lyra, Phase diagrams and anomalous thermodynamic behavior of a correlated spin-electron system on doubly decorated planar lattices, Phys. Lett. A 379 (2015) 2915-2921.<\/p>\n

      Quantum field theory method in stochastic dynamics:<\/a><\/h2>\n

      1.\u00a0\u00a0\u00a0 E. Jur\u010di\u0161inov\u00e1, M. Jur\u010di\u0161in, and R. Remecky, Turbulent Prandtl number in the A model of passive vector admixture, Phys. Rev. E 93 (2016) 033106.<\/p>\n

      2.\u00a0\u00a0\u00a0 E. Jur\u010di\u0161inov\u00e1 and M. Jur\u010di\u0161in, Anomalous scaling of the magnetic field in the helical Kazantsev-Kraichnan model, Phys. Rev. E 91 (2015) 063009.<\/p>\n

      3.\u00a0\u00a0\u00a0 M. Hnati\u010d, J. Honkonen, T. Lu\u010divjansk\u00fd, Two-loop calculation of anomalous kinetics of the reaction A+A->0 in randomly stirred fluid, Eur. Phys. J. B 86 (2013) 214.<\/p>\n

      4.\u00a0\u00a0\u00a0 M. Hnati\u010d, J. Honkonen, T. Lu\u010divjansk\u00fd, Effect of compressibility on the annihilation process, Theor. Math. Phys. 176 (2013) 873.<\/p>\n

      5.\u00a0\u00a0\u00a0 M. Hnati\u010d, J. Honkonen, T. Lu\u010divjansk\u00fd, Field Theoretic Technique for Irreversible Reaction Processes, Phys. Part. Nuc. 44 (2013) 316.<\/p>\n

      Exactly solvable models in classical statistical mechanics:<\/a><\/h2>\n

      1.\u00a0\u00a0\u00a0 E. Jur\u010di\u0161inov\u00e1 and M. Jur\u010di\u0161in, Single-point groud states and residual entropies in the antiferromagnetic Ising model with multisite interaction on the tetrahedral chain: exact results, J. Stat. Mech. (2016) 013101.<\/p>\n

      2.\u00a0\u00a0\u00a0 E. Jur\u010di\u0161inov\u00e1 and M. Jur\u010di\u0161in, The second order phase transitions of the spin-1 Ising model on pure Husimi lattices with elementary triangles: Exact results, Phys. Lett. A 379 (2015) 933.<\/p>\n

      3.\u00a0\u00a0\u00a0 E. Jur\u010di\u0161inov\u00e1 and M. Jur\u010di\u0161in, Solution of the antiferromagnetic Ising model on tetrahedron recursive lattice, Phys. Rev. E 89 (2014) 032123.<\/p>\n

      4.\u00a0\u00a0\u00a0 E. Jur\u010di\u0161inov\u00e1 and M. Jur\u010di\u0161in, Solution of the antiferromagnetic Ising model with multisite interaction on a zig-zag ladder, Phys. Rev. E 90 (2014) 032108.<\/p>\n

      5.\u00a0\u00a0\u00a0 E. Jur\u010di\u0161inov\u00e1 and M. Jur\u010di\u0161in, Phase transitions of the p-spin model on pure Husimi lattices, Phys. Rev. E 88 (2013) 012140.<\/p>\n

      Interacting binaries and exoplanets:<\/a><\/h2>\n

      1.\u00a0\u00a0\u00a0 Parimucha, \u0160.; Gajdo\u0161, P.; Kudak, V.; Fedurco, M.; Va\u0148ko, M.: Period variations of Algol-type eclipsing binaries AD And, TW Cas and IV Cas. Research in Astronomy and Astrophysics, 18 (2018), 44<\/p>\n

      2.\u00a0\u00a0\u00a0 Gajdo\u0161, P.; Parimucha, \u0160.; Hamb\u00e1lek, \u013d.; Va\u0148ko, M.: Transit-timing variations in the system Kepler-410Ab. Monthly Notices of the Royal Astronomical Society, 469, (2017), 2907<\/p>\n

      3.\u00a0\u00a0\u00a0 Merc, J.; G\u00e1lis, R.; Leedj\u00e4rv, L., Recent outburst activity of the super-soft X-ray binary AG Draconis, Contributions of the Astronomical Observatory Skalnat\u00e9 Pleso 47 (2017), . 192<\/p>\n

      4.\u00a0\u00a0\u00a0 Leedj\u00e4rv, L., G\u00e1lis, R., Hric, L., Merc, J., Burmeister, M., Spectroscopic view on the outburst activity of the symbiotic binary AG Draconis, Monthly Notices of the Royal Astronomical Society 456 (2016) 2558.<\/p>\n

      5.\u00a0\u00a0\u00a0 L. Hric, R. G\u00e1lis, L. Leedj\u00e4rv, M. Burmeister, E. Kundra, Outburst activity of symbiotic system AGDra, Monthly Notices of the Royal Astronomical Society 443 (2014) 1103.<\/p>\n

      Superconducting nanostructures:<\/a><\/h2>\n
        \n
      1. G. Zhang, T. Samuely, Z. Xu, J. K. Jochum, A. Volodin, S. Zhou, P. W. May, O. Onufriienko, J. Ka\u010dmar\u010d\u00edk, J. A. Steele, J. Li, J. Vanacken, J. Vac\u00edk, P. Szab\u00f3, H. Yuan, M. B. J. Roeffaers, D. Cerbu, P. Samuely, J. Hofkens, and V. V. Moshchalkov, Superconducting Ferromagnetic Nanodiamond, ACS Nano 11, 5358 (2017).<\/li>\n
      2. G. Zhang, T. Samuely, H. Du, Z. Xu, L. Liu, O. Onufriienko, P. W. May, J. Vanacken, P. Szab\u00f3, J. Ka\u010dmar\u010d\u00edk, H. Yuan, P. Samuely, R. E. Dunin-Borkowski, J. Hofkens, and V. V. Moshchalkov, Bosonic Confinement and Coherence in Disordered Nanodiamond Arrays, ACS Nano 11, 11746 (2017).<\/li>\n
      3. P. Szab\u00f3, T. Samuely, V. Ha\u0161kov\u00e1, J. Ka\u010dmar\u010d\u00edk, M. \u017demli\u010dka, M. Grajcar, J. G. Rodrigo, and P. Samuely, Fermionic scenario for the destruction of superconductivity in ultrathin MoC films evidenced by STM measurements, Phys. Rev. B 93, (2016).<\/li>\n
      4. J. Ka\u010dmar\u010d\u00edk, Z. Pribulov\u00e1, T. Samuely, P. Szab\u00f3, V. Cambel, J. \u0160olt\u00fds, E. Herrera, H. Suderow, A. Correa-Orellana, D. Prabhakaran, and P. Samuely, Single-gap superconductivity in \u03b2- B i2Pd, Phys. Rev. B 93, (2016).<\/li>\n
      5. G. Zhang, S. Turner, E. A. Ekimov, J. Vanacken, M. Timmermans, T. Samuely, V. A. Sidorov, S. M. Stishov, Y. Lu, B. Deloof, B. Goderis, G. Van Tendeloo, J. Van De Vondel, and V. V. Moshchalkov, Global and local superconductivity in boron-doped granular diamond, Adv. Mater. 26, 2034 (2014).<\/li>\n<\/ol>\n

        Unconventional states in quantum magnetic systems:<\/a><\/h2>\n
          \n
        1. K. J. Anderton, D. M. Ermert, P. A. Quintero, M. W. Turvey, M. S. Fataftah, K. A. Abboud, M. W. Meisel, E. \u010ci\u017em\u00e1r, L. J. Murray, Inorg. Chem. 56 (2017) 12012.<\/li>\n
        2. P. Opletal, J. Prokle\u0161ka, J. Valenta, P. Proschek, V. Tk\u00e1\u010d, R. Tarasenko, M. B\u011bhounkov\u00e1, \u0160. Matou\u0161kov\u00e1, M. M. Abd-Elmeguid and V. Sechovsk\u00fd: Quantum ferromagnet in the proximity of the tricritical point. npj Quantum Materials 2 (2017) 29.<\/li>\n
        3. L. Lederov\u00e1, A. Orend\u00e1\u010dov\u00e1, J. Chovan, J. Stre\u010dka, T. Verkholyak, R. Tarasenko, D. Legut, R. S\u00fdkora, E. \u010ci\u017em\u00e1r, V. Tk\u00e1\u010d, M. Orend\u00e1\u010d, and A. Feher: Realization of a spin-1\/2 spatially anisotropic square lattice in a quasi-two-dimensional quantum antiferromagnet Cu(en)(H2O)2SO4. Phys. Rev. B 95 (2017) 054436.<\/li>\n
        4. M. Orend\u00e1\u010d, K. Tibensk\u00e1, J. Stre\u010dka, J. \u010cis\u00e1rov\u00e1, V. Tk\u00e1\u010d, A. Orend\u00e1\u010dov\u00e1, E. \u010ci\u017em\u00e1r, J. Prokle\u0161ka, V. Sechovsk\u00fd: Cross-tunneling and phonon bottleneck effects in the relaxation phenomena of XY pyrochlore antiferromagnet Er2Ti2O7. Phys. Rev. B 93 (2016) 024410.<\/li>\n
        5. E. \u010ci\u017em\u00e1r, O. N. Risset, T. Wang, M. Botko, A. R. Ahir, M. J. Andrus, J.-H. Park, K. A. Abboud, D. R. Talham, M. W. Meisel, S. E. Brown, Antiferromagnetic ordering in MnF(salen), J. Phys. \u2013 Cond. Matter 28 (2016) 236003<\/li>\n<\/ol>\n

          Magnetocaloric effect and thermal transport in quantum systems:<\/a><\/h2>\n
            \n
          1. R. Tarasenko, V. Tk\u00e1\u010d, A. Orend\u00e1\u010dov\u00e1, M. Orend\u00e1\u010d, A. Feher: Experimental study of the rotational magnetocaloric effect in KTm(MoO4)2. Physica B 538 (2018) 116.<\/li>\n
          2. V. Tk\u00e1\u010d, A. Orend\u00e1\u010dov\u00e1, R. Tarasenko, M. Orend\u00e1\u010d, A. Feher: Impact of the crystal electric field on magnetocaloric properties of CsGd(MoO4)2. Journal of Alloys and Compounds 729 (2017) 323.<\/li>\n
          3. M. Orend\u00e1\u010d, R. Tarasenko, V. Tk\u00e1\u010d, A. Orend\u00e1\u010dov\u00e1, V. Sechovsk\u00fd: Specific heat study of the magnetocaloric effect in the Haldane-gap S=1 spin-chain material [Ni(C2H8N2)2NO2](BF4). Phys. Rev. B 96 (2017) 094425.<\/li>\n
          4. V. Mitsa, A. Feher, S. Petretskyi, R. Holomb, V. Tk\u00e1\u010d, A, P. Ihnatolia, A. Laver: Hysteresis of Low-Temperature Thermal Conductivity and Boson Peak in Glassy (g) As2S3: Nanocluster Contribution. Nanoscale Research Letters 12 (2017) 345.<\/li>\n
          5. V. Tk\u00e1\u010d, A. Orend\u00e1\u010dov\u00e1, E. \u010ci\u017em\u00e1r, M. Orend\u00e1\u010d, A. Feher, A.G. Anders: Giant reversible rotating cryomagnetocaloric effect in KEr(MoO4)2 induced by a crystal-field anisotropy. Phys. Rev. B 92 (2015) 024406.<\/li>\n<\/ol>\n

            Nanotechnology and nanophysics:<\/a><\/h2>\n
              \n
            1. Y. Liu, T. Kawaguchi, M. S. Pierce, V. Komanicky, H. You, J. Phys. Chem. Lett. 9 (2018) 1265.<\/li>\n<\/ol>\n

              2.\u00a0\u00a0\u00a0 V. Bilanych, V. Komanicky, M. Kozejova, A. Feher, A. Kovalcikova, F. Lofaj, V. Kuzma, V. Rizak Surface pattering of Ge\u2013As\u2013Se thin films by electric charge accumulation Thin Solid Films 616, (2016), 86.<\/p>\n

              3.\u00a0\u00a0\u00a0 C. Zhu, R. Harder., A. Diaz, V. Komanicky, A. Barbour, R. Xu, X. Huang, Y. Liu, M.S. Pierce, A. Menzel ,H. You: Ptychographic x-ray imaging of surfaces on crystal truncation rod, Applied Physics Letters 106 (2015) 101604.<\/p>\n

              4.\u00a0\u00a0\u00a0 M. Iacob, M. Cazacu, C. Racles, M. Ignat, V. Kozan, L. Sacarescu, D. Timpu, M. Kaj\u0148akov\u00e1, M. Botko, A. Feher, C. Turta: Iron-chromium oxide nanoparticles self-assembling into smectic mesophases, RSC Advances 4 (2014) 6293.<\/p>\n

              5.\u00a0\u00a0\u00a0 M.S. Pierce, K.C. Chang, D. Hennessy, V. Komanicky, M. Sprung, A. Sandy, H.You, Surface X-Ray Speckles: Coherent Surface Diffraction from Au(001). Physical Review Letters, 103 (16) (2009) 165501.<\/p>\n

              Magnetization processes and their dynamics in thin magnetic wires:<\/a><\/h2>\n

              1.\u00a0\u00a0\u00a0 R. Varga, P. Klein, A. Jimenez, and M. Vazquez, “Study of the single domain-wall structure in glass-coated microwires”, Phys. Stat. Sol. A 213 (2016), 356<\/p>\n

              2.\u00a0\u00a0\u00a0 R. Hudak, R. Varga, J. Hudak, D. Praslicka, I. Polacek, P. Klein, R. El Kammouni, and M. Vazquez, \u201eInfluence of Fixation on Magnetic Properties of Glass-Coated Magnetic Microwires for Biomedical Applications\u201c, IEEE Trans. Magn. 51 (2015), 5200104.<\/p>\n

              3.\u00a0\u00a0\u00a0 P. Klein, R. Varga, M. Vazquez, \u201eEnhancing the velocity of the single domain wall by current annealing in nanocrystalline FeCoMoB microwires\u201c J. Phys. D. Appl. Phys. 47 (2014), 255001;<\/p>\n

              4.\u00a0\u00a0\u00a0 P. Klein, R. Varga, M. V\u00e1zquez, \u201eStable and fast domain wall dynamics in nanocrystalline magnetic microwire\u201d J. All. Comp., 550 (2013) 31.<\/p>\n

              Structure and physical properties of disordered and quasi-ordered metallic systems:<\/a><\/h2>\n
                \n
              1. J. Dusza, P.<\/a> \u0160vec, V.\u00a0<\/a>Girman, R.\u00a0<\/a>Sedl\u00e1k, E.G.\u00a0<\/a>Castle, T.\u00a0<\/a>Csan\u00e1di, A.<\/a> Koval\u010d\u00edkov\u00e1, M.J.\u00a0<\/a>Reece, <\/a>Microstructure of (Hf-Ta-Zr-Nb)C high-entropy carbide at micro and nano\/atomic level<\/a>, Journal of the European Ceramic Society, Vol. 38 (2018)<\/li>\n
              2. H. Brunckova, L.\u00a0<\/a>Medvecky, E.\u00a0<\/a>Mudra, A.\u00a0<\/a>Kovalcikova, V.\u00a0<\/a>Girman,<\/a> Structural properties of gadolinium orthoniobate and orthotantalate thin films prepared by sol-gel method<\/a>, Journal of Alloys and Compounds, Vol. 735 (2018)<\/li>\n
              3. M. Jab\u0142o\u0144ska, K.\u00a0<\/a>Nothdurft, M.\u00a0<\/a>Nocu\u0144, V.\u00a0<\/a>Girman, R.\u00a0<\/a>Palkovits, <\/a>Redox-performance correlations in Ag\u2013Cu\u2013Mg\u2013Al, Ce\u2013Cu\u2013Mg\u2013Al, and Ga\u2013Cu\u2013Mg\u2013Al hydrotalcite derived mixed metal oxides<\/a>, Applied Catalysis B: Environmental, Vol. 207 (2017)<\/li>\n
              4. D.M. Fronczek, K. Saksl, R. Chulist, \u0160. Michalik, J. Wojewoda-Budka, L. Sniezek, M. Wachowski, J. Torzewski, M. \u0160ul\u00edkov\u00e1, K. \u0160u\u013eov\u00e1, A. Lachov\u00e1, M. Fejer\u010d\u00e1k, D. Daisenberger, Z. Szulc, Z. Kania, Residual stresses distribution, correlated with bending tests, within\u00a0 explosively welded Ti gr. 2\/A1050 bimetals, Vol. 144, (2018)<\/li>\n
              5. K. Saksl, M.\u00a0<\/a>\u010euri\u0161in, D.\u00a0<\/a>Balga, O.\u00a0<\/a>Milkovi\u010d, T.\u00a0<\/a>Brestovi\u010d, N.\u00a0<\/a>Jasminsk\u00e1, M.<\/a>\u010euri\u0161in, V.\u00a0<\/a>Girman, J.\u00a0<\/a>Balko, Y.\u00a0<\/a>Katuna, M.\u00a0<\/a>\u0160ulikov\u00e1, K.\u00a0<\/a>\u0160u\u013eov\u00e1, M.<\/a> Fejer\u010d\u00e1k, J.\u00a0<\/a>Boldi, F.\u00a0<\/a>Bertram,<\/a> Devitrification and hydrogen storage capacity of the eutectic Ca72Mg28metallic glass<\/a>, Journal of Alloys and Compounds, Vol. 725 (2017)<\/li>\n<\/ol>\n

                Magnetic properties of superparamagnetic nanoparticles:<\/a><\/h2>\n

                1.\u00a0\u00a0\u00a0 O. Kapusta, A. Zele\u0148\u00e1kov\u00e1, P. Hrubov\u010d\u00e1k, R. Tarasenko, V.\u00a0 Zele\u0148\u00e1k, The study of entropy change and magnetocaloric response in magnetic nanoparticles via heat capacity measurements, International Journal of Refrigeration 86 (2018) 107-112<\/p>\n

                2.\u00a0\u00a0\u00a0 A. Zele\u0148\u00e1kov\u00e1, P. Hrubov\u010d\u00e1k, O. Kapusta, V. Zele\u0148\u00e1k, V. Franco, Large magnetocaloric effect in fine Gd2O3 nanoparticles embedded in porous silica matrix, Applied Physics Letters 109 (2016) 122412.<\/p>\n

                2.\u00a0\u00a0\u00a0 V. Zele\u0148\u00e1k, D. Halamova, A. Zele\u0148\u00e1kov\u00e1, V. Girman, Periodic 3D nanoporous silica modified by amine or SPION nanoparticles as NSAID delivery system, Journal of Porous Materials 23 (2016) 1633-1645.<\/p>\n

                3.\u00a0\u00a0\u00a0 A. Zele\u0148\u00e1kov\u00e1, V. Zele\u0148\u00e1k, S. Michal\u00edk, J. Kov\u00e1\u010d, M.W. Meisel, Structural and magnetic properties of CoO-Pt core-shell nanoparticles , Physical Review B 89 (2014) 104417.<\/p>\n

                5.\u00a0\u00a0\u00a0 A. Zele\u0148\u00e1kov\u00e1, V. Zele\u0148\u00e1k, I. Ma\u0165ko, M. Stre\u010dkov\u00e1, P. Hrubov\u010d\u00e1k, J. Kov\u00e1\u010d, Superferromagnetism in chain-like Fe@SiO2 nanoparticle ensembles, Journal of Applied Physics 116 (2014) 033907.<\/p>\n

                Magnetization processes in soft magnetic materials:<\/a><\/h2>\n

                1.\u00a0\u00a0\u00a0 E. A. P\u00e9rigo, B. Weidenfeller, P. Koll\u00e1r, J. F\u00fczer, Past, present, and future of soft magnetic composites, Applied Physics Reviews 5 (2018) 031301.<\/p>\n

                2.\u00a0\u00a0\u00a0 Z. Bir\u010d\u00e1kov\u00e1, P. Koll\u00e1r, J. F\u00fczer, R. Bure\u0161, M. F\u00e1berov\u00e1, Irreversible permeability and DC losses relationship for selected soft magnetic materials, J. Phys. D: Appl. Phys. 51 (2018) 395002.<\/p>\n

                3.\u00a0\u00a0\u00a0 S. Dob\u00e1k, J. F\u00fczer, P. Koll\u00e1r, Temperature evolution of broadband magnetization behavior in dual-phase soft magnetic compacted materials, Materials & Design, 114, (2017), 383-390.<\/p>\n

                4.\u00a0\u00a0\u00a0 P, Koll\u00e1r, D. Olek\u0161\u00e1kov\u00e1, V. Vojtek, J. F\u00fczer, M. F\u00e1berov\u00e1, R. Bure\u0161, Steinmetz law for ac magnetized iron-phenolformaldehyde resin soft magnetic composites, J. Magn. Magn. Mater. 424 (2017) 245.<\/p>\n

                5.\u00a0\u00a0\u00a0 . Dob\u00e1k, J. F\u00fczer, P. Koll\u00e1r, M. Stre\u010dkov\u00e1, R. Bure\u0161, M. F\u00e1berov\u00e1, A comprehensive complex permeability approach to soft magnetic bulk cores from pure or resin coated Fe and pulverized alloys at elevated temperatures, J. Alloy. Comp. 695 (2017) 1998.<\/p>\n

                Interactions of heavy ions and nucleons at ultrarelativistic energies:<\/a><\/h2>\n
                  \n
                1. J.Adam,\u00a0M. Bombara, A. Krav\u010d\u00e1kov\u00e1, M. \u0160ef\u010d\u00edk, J. Vrl\u00e1kov\u00e1, ALICE Collaboration, Enhanced production of multi-strange hadrons in high-multiplicity proton\u2013proton collisions, Nature Physics\u00a013 (2017)\u00a0535\u2013539<\/a><\/li>\n
                2. B. Abelev, M. Bombara, S. Vok\u00e1l, STAR Collaboration, Near-side azimuthal and pseudorapidity correlations using neutral strange baryons and mesons in d+Au, Cu+Cu and Au+Au collisions at sqrt(s_NN)=200GeV, Physical Review C, 94 (2016) 014910<\/li>\n
                3. L. Adamczyk, S. Vok\u00e1l, STAR Collaboration, Measurement of interaction between antiprotons, Nature Vol. 527, no. 7578 (2015), s. 345-350<\/li>\n
                4. J.Adam, M. Bombara, A. Krav\u010d\u00e1kov\u00e1, J. Vrl\u00e1kov\u00e1, ALICE Collaboration, Precision measurement of the mass difference between light nuclei and anti-nuclei, Nature Physics Vol. 11, no. 10 (2015), s. 811-814<\/li>\n
                5. B. Abelev, M. Bombara, A. Krav\u010d\u00e1kov\u00e1, J. Vrl\u00e1kov\u00e1, K0S and Lambda Production in Pb-Pb Collisions at \u221asNN = 2.76 TeV, Physical Review Letters 111 (2013) 222301<\/li>\n<\/ol>\n

                  Light nuclei interactions at intermediate energies:<\/h2>\n

                  1.\u00a0\u00a0\u00a0 V.P. Ladygin, \u2026, G. Martinsk\u00e1 et al., The Spin Studies in Few-Body Systems at Nuclotron , Int.J.Mod.Phys.Conf.Ser. 40 (2016) 1660074<\/p>\n

                  2.\u00a0\u00a0\u00a0 S.N. Basilev,…, G.Martinsk\u00e1, J. Urb\u00e1n et al. , Charge exchange dp\u2192(pp)n reaction study at 1.75 A GeV\/c by the STRELA spectrometer , J.Phys.Conf.Ser. 678 (2016) no.1, 01204<\/p>\n

                  3.\u00a0\u00a0\u00a0 I. Ciepa\u0142,…, G. Martinsk\u00e1, J. Urb\u00e1n et al.., Investigation of the Deuteron Breakup on Proton Target in the Forward Angular Region at 130 MeV , Few Body Syst. 56 (2015) no.10, 665-690<\/p>\n

                  4.\u00a0\u00a0\u00a0 Z.Wazir, S.Vok\u00e1l, J.Vrl\u00e1kov\u00e1 et al., Centrality dependence of pseudorapidity spectra of charged particles produced in the nucleus – nucleus collisions at high, Indian Journal of Physics 88, (2014),723.<\/p>\n

                  5.\u00a0\u00a0\u00a0 S.V.Afanasjev, A.Dirner, A.Krav\u010d\u00e1kov\u00e1, S.Vok\u00e1l, J.Vrl\u00e1kov\u00e1 et at., New Status of the Project “\u03b7-Nuclei” at the Nuclotron, Nuclear Physics B, Proceedings Supplement, 245 (2013), 173.<\/p>\n

                  Molecular and cellular mechanisms of photodynamic therapy:<\/a><\/h2>\n
                    \n
                  1. A. Hovan, S. Datta, S.G. Kruglik, D.Jancura, P. Miskovsky and G. Bano. Phosphorescence kinetics of singlet oxygen produced by photosensitization in spherical nanoparticles. Part I. Theory. J. Phys. Chem. B<\/em> 122 (2018) 5147-5153.<\/li>\n
                  2. M. Masla\u0148\u00e1kov\u00e1, L. Balogov\u00e1, P. Mi\u0161kovsk\u00fd, R. Tk\u00e1\u010dov\u00e1 and K. \u0160troffekov\u00e1, Anti- and pro-apoptotic BcL2 proteins distribution and metabolic profile in human coronary aorta endothelial cells before and after Hyp-PDT. Cell Biochem. Biophys. 74 (2016) 435.<\/li>\n<\/ol>\n

                    3.\u00a0\u00a0\u00a0 V. Verebova, D. Belej, J. Joniova, Z. Jurasekova, P. Miskovsky, T. Kozar, D. Horvath, J. Stanicova and V. Huntosova, Deeper insights into the drug defense of glioma cells against hydrophobic molecules. Int. J. Pharmaceutics 503 (2016) 56.<\/p>\n

                    4.\u00a0\u00a0\u00a0 V. Huntosova, K. Stroffekova, G. Wagnieres, M. Novotova, Z. Nichtova, P. Miskovsky, Endosomes: Guardians Against [Ru(Phen)3]2+ Photo-action In Endothelial Cells During In Vivo pO2 Detection?, Metallomics, 6 (2014) 2279.<\/p>\n

                    5.\u00a0\u00a0\u00a0 J. Joniova, M. Misuth, F. Sureau, P. Miskovsky, Z. Nadova, Effect of PKC alpha expression on Bcl-2 phosphorylation and cell death by hypericin. Apoptosis 19(12) (2014)1779.<\/p>\n

                    Applications of opto-spectroscopic techniques in biomedicine and environmental studies:<\/a><\/h2>\n
                      \n
                    1. J. Joniova, M. Rebic, A. Strejckova, V. Huntosova, J. Stanicova, D. Jancura, P. Miskovsky and G. Bano. Formation of large hypericin aggregates in giant unilamellar vesicles – experiments and modeling. Biophys. Journal<\/em> 112 (2017) 966-975.<\/li>\n
                    2. S. Datta, A. Hovan, A. Jutkova, S.G. Kruglik, D.Jancura, P. Miskovsky and G. Bano. Phosphorescence kinetics of singlet oxygen produced by photosensitization in spherical nanoparticles. Part II. The case of hypericin-loaded low-density lipoprotein particles. J. Phys. Chem. B<\/em> 122 (2018) 5154-5160.<\/li>\n
                    3. A. Garcia-Leis, D. Jancura, M. Antalik, J.V. Garcia-Ramos, S. Sanchez-Cortes and Z. Jurasekova, Catalytic effect of silver plasmonic nanoparticles on the redox reaction leading to the ABTS.+ formation studiedby UV-visible and Raman spectroscopy. Phys. Chem. Chem. Phys. 18 (2016) 26562.<\/li>\n
                    4. G. Vizsnyiczai, T. Lestyan, J. Joniov\u00e1, B.L. Aekbote, A. Strej\u010dkov\u00e1, P. Omos, P. Mi\u0161kovsk\u00fd, L. Kelemen and G. B\u00e1n\u00f3, Optically trapped surface-enhanced Raman probes by silver photoreduction to 3D microstructures. Langmuir 31 (2015) 10087.<\/li>\n
                    5. J. Kubackova, G. Fabriciova, P. Miskovsky, D. Jancura, and S. Sanchez-Cortes: Sensitive Surface-Enhanced Raman Spectroscopy (SERS) Detection of Organochlorine Pesticides by Alkyl Dithiol-Functionalized Metal Nanoparticles-Induced Plasmonic Hot Spots Anal. Chem., , 87 (1)(2015) 663.<\/li>\n<\/ol>\n

                      Molecular modeling and mutimodal imaging og biological structures<\/a><\/h2>\n
                        \n
                      1. M. Rebic, F. Mocci, J. Ulicny, A.P. Lyubartsec and A. Laaksonen. Coarse-grained simulation of rodlike higher-order quadruplex structures at different salt concentrations<\/a>. Acs Omega<\/em>, 2(2017) 386-396.<\/li>\n
                      2. S. Hrivnak, J. Ulicny, L. Mikes, A. Cecilia, E. Hamann, T. Baumbah, L. Sveda, Z. Zaprazny, D. Korytar, E. Gimenez-Navarro, U.H. Wagner, Ch. Rau, H. Greven and P. Vagovic, Single-distance phase retieval algorithm for Bragg magnifier microscope. Optics Express 24 (2016) 27753.<\/li>\n<\/ol>\n

                        3.\u00a0\u00a0\u00a0 M. Rebic, A. Laaksonen, J. Sponer, J. Ulicny and F. Mocci, Molecular dynamics simulation study of parallel telomeric DNA guadruplex at different ionic strengths: evaluation of water and ion models. J. Phys. Chem. B 128 (2016), 7380.<\/p>\n

                        4.\u00a0\u00a0\u00a0 M. Rebic, F. Mocci, A. Laaksonen and J. Ulicny, Multiscale simulations of human telomeric G-quadruplex DNA. J. Phys. Chem. B 119 (2015) 105.<\/p>\n

                        Mathematical biology, biological and mesoscopic modeling<\/a><\/h2>\n
                          \n
                        1. D. Horvath and B. Brutovsky, Toward understanding of the role of reversibility of phenotype switching in the evolution of resistance to therapy. Physics Letters A\u00a0382 (2018) 1586-1600.<\/li>\n
                        2. D. Horvath and B. Brutovsky, Etiology of phenotype switching strategy in time varying stochastic environment. Physica A 462 (2016) 455.<\/li>\n<\/ol>\n

                          3.\u00a0\u00a0\u00a0 D. Horvath and B. Brutovsky, Study of selected phenotype switching strategies in time varyin environment. Phys. Lett. A 380 (2016) 1267.<\/p>\n

                          4.\u00a0\u00a0\u00a0 D. Horvath, J. Ulicny and B. Brutovsky,Self-organized manifold learning and heurestic carting via adaptive metrics. Conn. Sci. 28 (2016), 1.<\/p>\n

                          5.\u00a0\u00a0\u00a0 B. Brutovsky and D. Horvath, Towards inverse modelling of intratumor heterogeneity. Open Physics 13 (2015) 232.<\/p>\n

                          Modern didactic methods of education:<\/a><\/h2>\n

                          1.\u00a0\u00a0\u00a0 M. Kire\u0161, Z. Je\u0161kov\u00e1, M. Ganajov\u00e1, K. Kim\u00e1kov\u00e1, B\u00e1date\u013esk\u00e9 aktivity v pr\u00edrodovednom vzdel\u00e1van\u00ed, \u0160t\u00e1tny pedagogick\u00fd \u00fastav Bratislava (2016). 1. vydanie. ISBN 9788081181559<\/p>\n

                          2.\u00a0\u00a0\u00a0 V. Timkov\u00e1, Z. Je\u0161kov\u00e1, J. V\u00e1lek, Matematick\u00e9 modelovanie na po\u010d\u00edta\u010di vo vyu\u010dovan\u00ed fyziky, Matematika-fyzika-Informatika: \u010dasopis pro v\u00fduku na z\u00e1kladn\u00edch a st\u0159edn\u00edch \u0161kol\u00e1ch, 25(2) (2016), ISSN 1210-1761. s. 362 – 375.<\/p>\n

                          3.\u00a0\u00a0\u00a0 V. Timkov\u00e1, Z.Je\u0161kov\u00e1, How Magnus bends the flying ball \u2013 experimenting and modeling, The Physics Teacher, 55 (2017), 112.<\/p>\n

                          4.\u00a0\u00a0\u00a0 Ba\u0161ista, J., Je\u0161kov\u00e1, Z.: Interactive methods in introductory physics course, In: PTEE 2017: Proceedings of the 9th International Conference Physics Teaching in Engineering Education : 18. – 19. m\u00e1j 2017, \u017dilina. – \u017dilina : University of \u017dilina. – ISBN 9788055413228. – S. 95-102.<\/p>\n

                          5.\u00a0\u00a0\u00a0 E. Pa\u0148kov\u00e1, P. \u0160trauch, J. Han\u010d, Practical strategies in formative and summative assessment of the flipped math and physics education. In: II Congreso Europeo Fliped Classroom : Libro de estas : 6. – 8. m\u00e1j 2016, Zaragoza. – Zaragoza : MT Servicios Educativos, 2016. – ISBN 9788461759057. – S. 308-327.<\/p>\n

                          Effectiveness of the use of teaching tools in education:<\/a><\/h2>\n

                          1.\u00a0\u00a0\u00a0 Z.Je\u0161kov\u00e1, S. Luk\u00e1\u010d, M. Han\u010dov\u00e1, \u013d. \u0160najder, J.Guni\u0161, B.Balogov\u00e1, M. Kire\u0161, Efficacy of inquiry-based learning in mathematics, physics and informatics in relation to the development of students\u00b4 inquiry skills, Journal of Baltic Science Education, 15 (2016), 559.<\/p>\n

                          2.\u00a0\u00a0\u00a0 Z. Je\u0161kov\u00e1, T. Tran, M. Kire\u0161, T. Elleremeijer, Teachers\u00b4 competencies in the use of digital Technologies to support inquiry in classroom, Proceedings of GIREP conference (2016), ISBN 978-83-913497-1-7. pp. 30 \u2013 37.<\/p>\n

                          3.\u00a0\u00a0\u00a0 M. Kire\u0161, Z. Je\u0161kov\u00e1, Teachers\u00b4 inquiry and assessment skills developed within in-service teacher training course, Proceedings of GIREP conference (2016), ISBN 978-83-913497-1-7. pp. 130 – 137.<\/p>\n

                          4.\u00a0\u00a0\u00a0 M. Kire\u0161, J. Ku\u0161n\u00edr, The phenomenal analysis of problem solving success within the distance course for physics olympiad solvers. In: Proceedings of the 7th International Conference on Research in Didactics of teh Sciences, DidSci 2016, 29.6. \u2013 1.7.2016, Pedagogical Univeristy of Cracow, Krakow. 2016 ISBN 978-83-80804-037-9. pp. 68 \u2013 70.<\/p>\n

                          5.\u00a0\u00a0\u00a0 Z. Je\u0161kov\u00e1, M. Kire\u0161, E. McLoughlin, O. Finlayson, Ch. Ottander, M. Ekborg, In-service and Pre-Service Teacher Education in IBSE \u2013 the ESTABLISH Approach. In: Il Nuovo Cimento della Societa Italiana di Fisica C. – ISSN 1124-1896. – Vol. 38, no. 3 (2015), art.no. 99.<\/p>\n

                          Popularization of physics and dealing with gifted students:<\/a><\/h2>\n
                            \n
                          1. Kazachkov, A., Kire\u0161, M.:\u00a0 A stack of cards rebuilt with calculus, In: Physics Education. – ISSN 0031-9120. – vol. 52, no. 4 (2017), art.no. 045019.<\/li>\n
                          2. Bili\u0161\u0148ansk\u00e1, M., Kire\u0161, M.: Balancing act: the physics of levers, In: Science in School: The European journal for science teachers. – ISSN 1818-0353. – No. 42 (2017), s. 49-54.<\/li>\n
                          3. K. Kri\u0161kov\u00e1, Be a magnet for a day. In: Science in Scool: The European journal for science teachers. – ISSN 1818-0353. – No. 38 (2016), s. 32-35.<\/li>\n
                          4. M. Kire\u0161, M. Bili\u0161\u0148ansk\u00e1, K. Kri\u0161kov\u00e1, Success Rate Evaluation of Non-Formal Education in Science Camp Motivates to Become a Physics Teacher. In Hands-on Science, The Heart of Science Education, HSCI 2016. Brno, Czech Republic, 2016. ISBN 978-84-8158-714-2. pp. 119-123.<\/li>\n
                          5. L. Mi\u0161ianikov\u00e1, M. Kire\u0161, B. Balogov\u00e1, Developmnet of selected inquiry skills by solving of tasks from Young Physicists` tournament. In Hands-on Science, The Heart of Science Education, HSCI 2016. Brno, Czech Republic, 2016. ISBN 978-84-8158-714-2. pp. 130 \u2013 134.<\/li>\n<\/ol>\n","protected":false},"excerpt":{"rendered":"

                            Molecular magnets and mixed spin systems: M. \u017dukovi\u010d and M. Semjan, Magnetization process and magnetocaloric effect in geometrically frustrated Ising antiferromagnet and spin ice models on a \u2018Star of David\u2019 nanocluster, J. Magn. Magn. Mater. 451 (2018) 311. V. Ohanyan, O. Rojas, J. Stre\u010dka, S. Bellucci, Absence of actual plateaus in zero-temperature magnetization curves of … Continued<\/a><\/p>\n","protected":false},"author":1,"featured_media":0,"parent":44893,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":{"_editorskit_title_hidden":false,"_editorskit_reading_time":0,"_editorskit_is_block_options_detached":false,"_editorskit_block_options_position":"{}","footnotes":""},"class_list":["post-44896","page","type-page","status-publish","hentry"],"acf":{"acf_link_na_externy_obsah":""},"yoast_head":"\nSelected publications - Pr\u00edrodovedeck\u00e1 fakulta | UPJ\u0160<\/title>\n<meta name=\"robots\" content=\"index, follow, max-snippet:-1, max-image-preview:large, max-video-preview:-1\" \/>\n<link rel=\"canonical\" href=\"https:\/\/www.upjs.sk\/prirodovedecka-fakulta\/en\/research\/publications\/\" \/>\n<meta property=\"og:locale\" content=\"en_US\" \/>\n<meta property=\"og:type\" content=\"article\" \/>\n<meta property=\"og:title\" content=\"Selected publications - Pr\u00edrodovedeck\u00e1 fakulta | UPJ\u0160\" \/>\n<meta property=\"og:description\" content=\"Molecular magnets and mixed spin systems: M. \u017dukovi\u010d and M. 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