Brillouin light scattering microscopy and spectroscopy (BRILLOUIN)
Guarantor:
Ondřej Wojewoda, Ph.D.
Instrument status:
Some Issues, 6.8.2024 13:10, Problems with shutter
The TFP-2 spectrometer is based on a tandem 3+3 pass Fabry-Perot interferometer arrangement. The instrument is intended primarily for the study of Brillouin spectra, particularly of many, or broad, features over an extended spectral range. The flexibility is such that even Raman spectra (out to about 500 cm-1) may be measured. The construction allows a change of mirror spacing with a minor loss of alignment, so that full alignment may be achieved again within seconds.
Publications:
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Keshmiri, H.;, 2024: Brillouin light scattering anisotropy microscopy for imaging the viscoelastic anisotropy in living cells. NATURE PHOTONICS 18(3), p. 276 - 10, doi: 10.1038/s41566-023-01368-w; FULL TEXT
(BRILLOUIN) -
Krčma, J., 2024: Controlled Excitation of Magnons through Optically Induced Mie Resonances in Periodic Dielectric Nanostructures. BACHELOR´S THESIS ; FULL TEXT
(EVAPORATOR, RAITH, RIE-FLUORINE, KAUFMAN, BRILLOUIN, VERIOS) -
KLÍMA, J.; WOJEWODA, O.; ROUČKA, V.; MOLNÁR, T.; HOLOBRÁDEK, J.; URBÁNEK, M., 2024: Zero-field spin wave turns. APPLIED PHYSICS LETTERS 124(11), doi: 10.1063/5.0189394; FULL TEXT
(BRILLOUIN, EVAPORATOR, LYRA, KERR-MICROSCOPE, RAITH, ICON-SPM) -
WOJEWODA, O.; HRTOŇ, M.; DHANKHAR, M.; KRČMA, J.; DAVÍDKOVÁ, K.; KLÍMA, J.; HOLOBRÁDEK, J.; LIGMAJER, F.; ŠIKOLA, T.; URBÁNEK, M., 2023: Phase-resolved optical characterization of nanoscale spin waves. APPLIED PHYSICS LETTERS 122(20), p. 1 - 6, doi: 10.1063/5.0151338; FULL TEXT
(RAITH, BRILLOUIN, LYRA, MAGNETRON, EVAPORATOR) -
Klíma, J., 2023: Spin waves in non-trivial magnetic landscapes. BACHELOR´S THESIS , p. 1 - 69; FULL TEXT
(MIRA-EBL, LYRA, ICON-SPM, KERR-MICROSCOPE, BRILLOUIN, EVAPORATOR)
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KNAUER, S.; DAVÍDKOVÁ, K.; SCHMOLL, D.; SERHA, R.; VORONOV, A.; WANG, Q.; VERBA, R.; DOBROVOLSKIY, O.; LINDNER, M.; REIMANN, T.; DUBS, C.; URBÁNEK, M.; CHUMAK, A., 2023: Propagating spin-wave spectroscopy in a liquid-phase epitaxial nanometer-thick YIG film at millikelvin temperatures. JOURNAL OF APPLIED PHYSICS 133(14), p. 1 - 8, doi: 10.1063/5.0137437; FULL TEXT
(RAITH, RIE-FLUORINE, SCIA, BRILLOUIN, EVAPORATOR, VNA-MPI) -
LAMB-CAMARENA, S.; PORRATI, F.; KUPRAVA, A.; WANG, Q.; URBÁNEK, M.; BARTH, S.; MAKAROV, D.; HUTH, M.; DOBROVOLSKIY, O., 2023: 3D Magnonic Conduits by Direct Write Nanofabrication. NANOMATERIALS 13(13), doi: 10.3390/nano13131926; FULL TEXT
(MIRA-EBL, EVAPORATOR, BRILLOUIN) -
WOJEWODA, O.; LIGMAJER, F.; HRTOŇ, M.; KLÍMA, J.; DHANKHAR, M.; DAVÍDKOVÁ, K.; STAŇO, M.; HOLOBRÁDEK, J.; KRČMA, J.; ZLÁMAL, J.; ŠIKOLA, T.; URBÁNEK, M., 2023: Observing high-k magnons with Mie-resonance-enhanced Brillouin light scattering. COMMUNICATIONS PHYSICS 6(1), p. 1 - 10, doi: 10.1038/s42005-023-01214-z; FULL TEXT
(RAITH, MIRA-EBL, EVAPORATOR, MAGNETRON, ALD, LYRA, ICON-SPM, BRILLOUIN) -
FLAJŠMAN, L.; WOJEWODA, O.; QIN, H.; DAVÍDKOVÁ, K.; URBÁNEK, M.; VAN DIJKEN, S., 2022: Wideband Brillouin light scattering analysis of spin waves excited by a white-noise RF generator. APPLIED PHYSICS LETTERS 121(23), doi: 10.1063/5.0124764; FULL TEXT
(BRILLOUIN, RAITH, EVAPORATOR) -
Turčan, I., 2022: Magnetism in curved geometries. PH.D. THESIS , p. 1 - 117; FULL TEXT
(LYRA, BRILLOUIN, ICON-SPM, MIRA-EBL, KERR-MICROSCOPE, HELIOS) -
VAŇATKA, M.; SZULC, K.; WOJEWODA, O.; DUBS, C.; CHUMAK, A.; KRAWCZYK, M.; DOBROVOLSKIY, O.; KLOS, J.; URBÁNEK, M., 2021: Spin-Wave Dispersion Measurement by Variable-Gap Propagating Spin-Wave Spectroscopy. PHYSICAL REVIEW APPLIED 16(5), p. 054033-1 - 10, doi: 10.1103/PhysRevApplied.16.054033; FULL TEXT
(VNA-MPI, BRILLOUIN, RAITH, EVAPORATOR, MAGNETRON, DIENER, VERIOS, RIE-FLUORINE) -
TURČAN, I.; FLAJŠMAN, L.; WOJEWODA, O.; ROUČKA, V.; MAN, O.; URBÁNEK, M., 2021: Spin wave propagation in corrugated waveguides. APPLIED PHYSICS LETTERS 118(9), p. 1 - 5, doi: 10.1063/5.0041138; FULL TEXT
(HELIOS, RAITH, KERR-MICROSCOPE, VERSALAB, VNA-MPI, BRILLOUIN, LYRA, ICON-SPM) -
Vaňatka, M., 2021: Static and dynamic properties of nanostructured magnetic materials. PH.D. THESIS , p. 1 - 113; FULL TEXT
(VERSALAB, VNA-MPI, TITAN, BRILLOUIN, MIRA-EBL, RAITH, KERR-MICROSCOPE, MAGNETRON, EVAPORATOR, VERIOS, WIRE-BONDER, LYRA) -
Flajšman, L., 2020: Magneto-optical study of the dynamic properties of magnetic nanostructures and nanostructured metamaterials. PH.D. THESIS , p. 1 - 152; FULL TEXT
(KERR-MICROSCOPE, BRILLOUIN, LYRA) -
Hache, T.; Vanatka, M.; Flajsman, L.; Weinhold, T.; Hula, T.; Ciubotariu, O.; Albrecht, M.; Arkook, B.; Barsukov, I.; Fallarino, L.; Hellwig, O.; Fassbender, J.; Urbanek, M.; Schultheiss, H., 2020: Freestanding Positionable Microwave-Antenna Device for Magneto-Optical Spectroscopy Experiments. PHYSICAL REVIEW APPLIED 13(5), p. 054009-1 - 10, doi: 10.1103/PhysRevApplied.13.054009; FULL TEXT
(RAITH, RIE-FLUORINE, EVAPORATOR, WIRE-BONDER, BRILLOUIN) -
Wojewoda, O.; Hula, T.; Flajsman, L.; Vanatka, M.; Gloss, J.; Holobradek, J.; Stano, M.; Stienen, S.; Korber, L.; Schultheiss, K.; Schmid, M.; Schultheiss, H.; Urbanek, M , 2020: Propagation of spin waves through a Neel domain wall. APPLIED PHYSICS LETTERS 117(2), p. 022405-1 - 5, doi: 10.1063/5.0013692; FULL TEXT
(EVAPORATOR, KERR-MICROSCOPE, BRILLOUIN, MIRA-EBL, LYRA, ICON-SPM) -
Wojewoda, O., 2020: Phase-resolved Brillouin light scattering: development and applications. MASTER´S THESIS ; FULL TEXT
(BRILLOUIN, EVAPORATOR, MIRA-EBL, KERR-MICROSCOPE, LYRA, ICON-SPM)
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