Contact
| Email: | , |
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| Research group: | Fabrication and Characterisation of Nanostructures - Tomáš Šikola |
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Publications that are part of the Web of Science database, possibly also other publications chosen by authors.
2020
- HRTOŇ, M.; KONEČNÁ, A.; HORÁK, M.; ŠIKOLA, T.; KŘÁPEK, V., 2020: Plasmonic Antennas with Electric, Magnetic, and Electromagnetic Hot Spots Based on Babinet´s Principle. PHYSICAL REVIEW APPLIED 13(5), p. 1 - 14, doi: 10.1103/PhysRevApplied.13.054045; FULL TEXT
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KŘÁPEK, V.; KONEČNÁ, A.; HORÁK, M.; LIGMAJER, F.; STÖGER-POLLACH, M.; HRTOŇ, M.; BABOCKÝ, J.; ŠIKOLA, T., 2020: Independent engineering of individual plasmon modes in plasmonic dimers with conductive and capacitive coupling. NANOPHOTONICS 9(3), p. 623 - 10, doi: 10.1515/nanoph-2019-0326; FULL TEXT
(HELIOS, MIRA, TITAN, LEICACOAT-STAN, FTIR, EVAPORATOR) -
HORÁK, M.; KŘÁPEK, V.; HRTOŇ, M.; KONEČNÁ, A.; LIGMAJER, F.; STÖGER-POLLACH, M.; ŠIKOLA, T., 2020: Magnetic Near Field Imaging with Electron Energy Loss Spectroscopy Based on Babinet´s Principle. MICROSCOPY AND MICROANALYSIS 26(S2), p. 2628 - 3, doi: 10.1017/S1431927620022242; FULL TEXT
(HELIOS, TITAN)
2019
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HORÁK, M.; KŘÁPEK, V.; HRTOŇ, M.; KONEČNÁ, A.; LIGMAJER, F.; STÖGER-POLLACH, M.; ŠAMOŘIL, T.; PATÁK, A.; ÉDES, Z.; METELKA, O.; BABOCKÝ, J.; ŠIKOLA, T., 2019: Limits of Babinet’s principle for solid and hollow plasmonic antennas. SCIENTIFIC REPORTS 9, p. 1 - 11, doi: 10.1038/s41598-019-40500-1; FULL TEXT
(FTIR, HELIOS, LYRA, MAGNETRON, SNOM-NANONICS, TITAN)
- AMISPEC_Platforma pokročilých mikroskopických a spektroskopických technik pro nano a mikrotechnologie (TE01020233), TA ČR, 2012 - 2019
- Manufacture of magnetic metamaterials using a direct entry focused ion beam (GA15-62503S), Czech Science Foundation - International Projects, 2015 - 2017
- Self-organized functional layers of molecular quantum bits (7AMDE005), DAAD, 2015 - 2016
- Mapping of localized plasmon resonances at nanoantennas (GAP102/12/1881), Czech Science Foundation - Standard Grants, 2012 - 2014
- Fabrication of semiconductor nanowires with optimized functional properties (GPP108/12/P699), Czech Science Foundation - Postdoc Grants, 2012 - 2014
- Fabrication of metallic nanostructures for spintronic applications (GPP102/12/P443), Czech Science Foundation - Postdoc Grants, 2012 - 2014