Ing. Jaroslav TÓBIK, PhD.

  • 2023

Tóbik, J.: Dynamical symmetry breaking in magnetic systems, Phys. Status Solidi RRL 17 (2013) 2200459.

Ščepka, T., Feilhauer, J., Tóbik, J., Krylov, S., Kalmykova, T., Cambel, V., and Mruczkiewicz, M.: Control of closure domain state circulation in coupled triangular permalloy elements using MFM tip, J. Applied Phys. 134 (2023) 213902.

Feilhauer, J., Tóbik, J., Šoltýs, J., and Cambel, V.: Numerical characterization of magnetic vortex probe imaging for magnetic force microscopy, IEEE Trans. Magnet. 59 (2023) 6500210.

  • 2022

Hudec, B., Vanko, G., Precner, M., Dobročka, E., Seifertová, A., Fedor, J., Tóbik, J., and Fröhlich, K.: Piezoelectric thin film pressure sensor made by atomic layer deposition of 002-oriented ZnO on Si3N4 membrane. In: ASDAM 2022. Eds. J. Marek et al. IEEE 2022. ISBN 978-1-6654-6977-7. P. 199-202.

  • 2021

Bublikov, K., Tóbik, J., Sadovnikov, A.V., and Mruczkiewicz, M.: Vortex gyrotropic mode in curved nanodots, J. Magnetism Magnetic Mater. 537 (2021) 168105.

  • 2020

Feilhauer, J., Saha, S., Tóbik, J., Zelent, M., Heyderman, L.J., and Mruczkiewicz, M.: Controlled motion of skyrmions in a magnetic antidot lattice, Phys. Rev. B 102 (2020) 184425.

Šoltýs, J., Feilhauer, J., Vetrova, J., Tóbik, J., Bublikov, K., Ščepka, T., Fedor, J., Dérer, J., and Cambel, V.: Magnetic-field imaging using vortex-core MFM tip, Applied Phys. Lett. 116 (2020) 242406.

  • 2017

Zelent, M., Tóbik, J., Krawczyk, M., Guslienko, K., Mruczkiewicz, M., : Bi‐stability of magnetic skyrmions in ultrathin multilayer nanodots induced by magnetostatic interaction. Physica Status Solidi RRL 11 (2017) 1700259.

Tóbik, J., Martoňák, R., Cambel, V., : Free-energy landscapes in magnetic systems from metadynamics. Phys. Rev. B 96 (2017) 140413(R).

  • 2015

Tóbik, J., Cambel, V., Karapetrov, G., : Asymmetry in time evolution of magnetization in magnetic nanostructures. Sci Reports 5 (2015) 12301.

Neilinger (Sečianska), K., Šoltýs, J., Tóbik, J., Dérer, J., Cambel, V., : Cantilever sensor for study of magnetic microstructures In: Proc. 21th Inter. Conf. on Applied Phys. of Cond. Matter (APCOM 2015). Eds. J. Vajda and I. Jamnický. Bratislava: FEI STU 2015. ISBN 978-80-227-4373-0. P. 189-193.

Ščepka, T., Polakovič, T., Šoltýs, J., Tóbik, J., Kulich, M., Kúdela, R., Dérer, J., Cambel, V., : Individual vortex nucleation/annihilation in ferromagnetic nanodots with broken symmetry observed by micro/Hall magnetometry. AIP Adv. 5 (2015) 117205.

  • 2014

Precner, M., Fedor, J., Tóbik, J., Šoltýs, J., Cambel, V., : High resolution tips for switching magnetization MFM. Acta Phys. Polonica A 126 (2014) 386-387.

Ščepka, T., Šoltýs, J., Precner, M., Fedor, J., Tóbik, J., Gregušová, D., Gucmann, F., Kúdela, R., Cambel, V., : Vortex dynamics in ferromagnetic nanoelements observed by micro-hall probes. Acta Phys. Polonica A 126 (2014) 390-391.

  • 2013

Cambel, V., Precner, M., Fedor, J., Šoltýs, J., Tóbik, J., Ščepka, T., Karapetrov, G., : High resolution switching magnetization magnetic force microscopy. Applied Phys. Lett. 102 (2013) 062405.

Šoltýs, J., Gaži, Š., Fedor, J., Tóbik, J., Precner, M., Cambel, V., : Magnetic nanostructures for non-volatile memories. Microelectr. Engn. 110 (2013) 474-478.

Cambel, V., Tóbik, J., Šoltýs, J., Fedor, J., Precner, M., Gaži, Š., Karapetrov, G., : The influence of shape anisotropy on vortex nucleation in Pacman-like nanomagnets,. J. Magnetism Magnetic Mater. 336 (2013) 29-36.

Mošková, A., Moško, M., Tóbik, J., : Theoretical study of persistent current in a nanoring made of a band insulator. Phys. Status Solidi B 250 (2013) 147-159.

  • 2012

Tóbik, J., Cambel, V., Karapetrov, G., : Dynamics of vortex nucleation in nanomagnets with broken symmetry. Phys. Rev. B 86 (2012) 134433.

Precner, M., Gregušová, D., Šoltýs, J., Fedor, J., Gucmann, F., Tóbik, J., Kúdela, R., Cambel, V., : Nucleation and annihilation of magnetic vortices in Pacman-like nanodots observed by micro-Hall probes. In: ASDAM 2012. Eds. Š. Haščík, J. Osvald. Piscataway: IEEE 2012. ISBN 978-1-4673-1195-3. P. 87-90.

  • 2009

Tóbik, J., Mošková, A., Moško, M., : Persistent currents in perfect crystalline insulators: realistic tight-binding model. In: Proc. 17th Conf. Slovak Physicists. Ed. M. Reiffers. Bratislava: Slovak Phys. Soc., 2009. ISBN 978-80-969124-7-6. P. 49-50.

  • 2007

Tóbik, J., Tosatti, E., : Jahn-Teller effect in the magnesium phthalocyanine anion. J. Molecular Struct. 838 (2007) SI112-115.(not IEE SAS).

Tóbik, J., Tosatti, E., : Structure, vibrations and Raman modes in electron doped metal phthalocyanines. J. Phys. Chem. A 111 (2007) 12570-12576.(not IEE SAS).

  • 2006

Tóbik, J., Tosatti, E., : Raman tensor calculation for magnesium phthalocyanine. Surface Sci 600 (2006) SI 3995-3998.(not IEE SAS).

  • 2004

Tóbik, J., Dal Corso, A., : Electric fields with ultrasoft pseudo-potentials: Applications to benzene and anthracene. J. Chem. Phys. 120 (2004) 9934-9941.(not IEE SAS).

Tóbik, J., Dal Corso, A., Scandolo, S., Tosatti, E., : Organic molecular crystals in electric fields. Surface Sci 566 (2004) 644-649.(not IEE SAS).

Tosatti, E., Fabrizio, M., Tóbik, J., Santoro, G., : Strong correlations in electron doped phthalocyanine conductors near half filling. Phys. Rev. Lett. 93 (2004) 117002.(not IEE SAS).

  • 2001

Tóbik, J., Štich, I., Terakura, K., : Effect of tip morphology on image formation in noncontact atomic force microscopy: InP(110). Phys. Rev. B 63 (2001) 245324.(not IEE SAS).

  • 2000

Mitas, L., Grossman, J., Štich, I., Tóbik, J., : Silicon clusters of intermediate size: Energetics, dynamics, and thermal effects. Phys. Rev. Lett. 84 (2000) 1479.(not IEE SAS).

Štich, I., Tóbik, J., Perez, R., Terakura, K., Ke, S., : Tip-surface interactions in noncontact atomic force microscopy on reactive surfaces. Progress Surface Sci 64 (2000) 179-191.(not IEE SAS).

  • 1999

Tóbik, J., Štich, I., Perez, R., Terakura, K., : Simulation of tip-surface interactions in atomic force microscopy of an InP(110) surface with a Si tip. Phys. Rev. B 60 (1999) 11639-11644.(not IEE SAS).