Ing. Tóbik Jaroslav, PhD.

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

1. Finizio, S.: Nano Lett. 22 (2022) 1971.
#     2. Kalmykova, T.: IEEE 2nd Ukrain. Microwave Week – UkrMW 2022, pp. 88-91.
3. Jalil, W.B.F.: J. Phys. D 56 (2023) 385001.

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.

1. Reichhardt, C.: Phys. Rev. B 103 (2021) 125107.
2. Reichhardt, C.: Phys. Rev. E 103 (2021) 062603.
3. Vizarim, N.P.: J. Magnetism Magnet. Mater. 528 (2021) 167710.
4. Zhang, X.C.: Comm. Phys. 4 (2021) 255.
5. Bindal, N.: IEEE Nanotechnol. Magazine 15 (2021) 28.
6. Ahrens, V.: AIP Adv. 12 (2022) 035325.
7. Reichhardt, C.J.O.: Phys. Rev. Res. 4 (2022) 013190.
8. Reichhardt, C.: J. Chem. Phys. 156 (2022) 124901.
9. Porro, J.M.: Magnetochem. 8 (2022) 55
10. Paikaray, B.: ACS Applied Electron. Mater. 4 (2022) 2290.
11. Vizarim, NP.: Phys. Rev. B 105 (2022) 224409.
12. MacKinnon, C.R.: Sci Rep. 12 (2022) 10786.
13. Reichhardt, C.: Phys. Rev. B 105 (2022) 214437.
14. Souza, J.C.B.: New J. Phys. 24 (2022) 103030.
15. Reichhardt, C.J.O.: Europ. Phys. J. B 95 (2022) 135.
16. Wang, K.: J. Magnetism Magnet. Mater. 563 (2022) 169905.
17. Reichhardt, C.: Rev. Modern Phys. 94 (2022) 035005.
18. Salinas, R.I.: Mater. Res. Lett. 11 (2023) 305.
19. Sivasubramani, S.: Nanotechnol. 34  (2023) 13LT01.
20.Panizon, E.: Nanoscale 15  (2023) 1299.
21. Souza, J.C.B.: New J. Phys. 25 (2023) 053020.
22. Souza, J.C.B.: J. Magnetism Magnet. Mater. 587 (2023) 171280.
23. Önel, A.C.: J. Supercond. Novel Magnetism 36 (2023) 1533.
24. Rocha, F.S.: J. Phys.-Cond. Matt. 36 (2024) 115801.

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

1. Ozerov, G.K.: Phys. Chem. Chem. Phys. 21 (2019) 16549.
2. Nagyfalusi, B.: Phys. Rev. B 100 (2019) 174429.
3. Pramanik, K.: Phys. Chem. Chem. Phys. 22 (2020) 22796.
4. Bause, M.: J. Chem. Phys. 154 (2021) 134105.
5. Mruczkiewicz, M.: Solid State Phys. 72 (2021) 1.

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

1. Buttner, F.: Sci Rep. 8 (2018) 4464.
2. Everschor-Sitte, K.: J. Applied Phys. 124 (2018) 240901.
3. Bernand-Mantel, A.: SciPost Phys. 4 (2018) UNSP 027.
4. Morozova, M. A.: J. Magnetism. Magnetic Mater. 466 (2018) 119.
5. Ho, P.: Phys. Rev. Applied 11 (2019) 024064.
6. Castro, M. A.: J. Phys.-Cond. Matt. 32 (2020) 175801.
7. Dohi, T.: Annual Rev. Cond. Matt. Phys. 13 (2022) 73.
8. Bao, B.: Symmetry-Basel 14 (2022) 1195.
9. Chaves-O’Flynn, G.D.: Physica D 445 (2023) 133617.

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

1. Li, J.: J. Magnetism. Magnetic Mater. 435 (2017) 167.
2. Li, J.: J. Magnetism. Magnetic Mater. 451 (2018) 379.
3. Zhou, K.: J. Applied Phys. 125 (2019) 223904.
4. Mary, A.: Physica Scripta 98 (2023) 045808.
5. Makartsou, U.: Nanoscale 15 (2023) 13094.

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

1. Ehrmann, A.: J. Magnetism Magnetic Mater. 475 (2019) 727.

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

1. Schoenherr, P.: Materials 10 (2017) 1051.
2. Puttock, R.: IEEE Trans.Magnet. 53 (2017) 6500805.
3. Kazakova, O.: J. Applied Phys. 125 (2019) 060901.

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.

1. Li, Z.: Sci Reports 4 (2014) 5594.
2. Li, Z.: NANOSCALE 6 (2014) 11163.
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4. Li, Z.: Phys. Chem. Chem. Phys. 18 (2016) 28254.
5. Li, Z.: Mater. Sci-Poland 34 (2016) 924.
6. Kinoshita, Y.: Nanotechnol. 28(2017) 485709.
7. Cao, Y.: Nanotechnol. 29(2018) 305502.
8. Kumar, P.: J. Applied Phys. 123 (2018)214503.
9. Chou, W.Y.: ACS Applied Mater. Interfac. 13 (2021) 34962.
10. Kumar, R.R.: IEEE Sensors J. 23 (2023) 16107.
11. Josten, N.: Phys. Rev. Mater. 7 (2023) 124411.

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

        1. Hluchy, L.: Comput. Informat. 35 (2016) 1386.

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.

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3. Zheng, Y.: Rep. Progress in Phys. 80 (2017) 086501.
4. Ziegelwanger, H.: J. Comput. Phys. 346 (2017) 152.

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.

1. Shyu, F.L.: Solid State Comm. 188 (2014) 53.
2. Sankar, I.V.: Physica E 73 (2015) 175.
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4. Lavanya, C.U.: Physica E‏ 126 (2021) 114500.
5. Tehrani, D.H.T.: Sci Rep 13 (2023) Iss. 1.

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

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

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

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

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

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

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

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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).

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

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