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Year: 2017

  1. S. Pan, J. W. Kłos, S. Mieszczak, A. Barman and M. Krawczyk. "Spin waves in periodic antidot waveguide of complex base", J. Phys. D: Appl. Phys., Vol. 50. 2017, pp. 275003. [More] [Online version] [Bibtex] [RIS]
  2. A. Krysztofik et al. "Characterization of spin wave propagation in (111) YIG thin films with large anisotropy", J. Phys. D: Appl. Phys., Vol. 50. 2017, pp. 235004. [More] [Online version] [Bibtex] [RIS]
  3. A. E. Serebryannikov, M. Mutlu and E. Ozbay. "Effects of Dielectric Substrate on Polarization Conversion Using Coupled Metasurfaces With and Without Tunneling", Chapter 1 in Metamaterials - Devices and Applications. 2017. [More] [Online version] [Bibtex] [RIS]
  4. V. Vashistha, G. Vaidya, R. S. Hegde, A. E. Serebryannikov, N. Bonod and M. Krawczyk. "All-Dielectric Metasurfaces Based on Cross-Shaped Resonators for Color Pixels with Extended Gamut", ACS Photonics. 2017. [More] [Online version] [Bibtex] [RIS]
  5. M. Zelent et al. "Geometrical complexity of the antidots unit cell effect on the spin wave excitations spectra", J. Phys. D: Appl. Phys., Vol. 50. 2017, pp. 185003. [More] [Online version] [Bibtex] [RIS]
  6. J. Rychły and J. W. Kłos. "Spin wave surface states in 1D planar magnonic crystals", J. Phys. D: Appl. Phys., Vol. 50. 2017, pp. 164004. [More] [Online version] [Bibtex] [RIS]
  7. P. Graczyk, J. W. Kłos and M. Krawczyk. "Broadband magnetoelastic coupling in magnonic-phononic crystals for high-frequency nanoscale spin-wave generation", Phys. Rev. B, Vol. 95. 2017, pp. 104425. [More] [Online version] [Bibtex] [RIS]
  8. M. Mruczkiewicz, M. Krawczyk and K. Guslienko. "Spin excitation spectrum in a magnetic nanodot with continuous transitions between the vortex, Bloch-type skyrmion, and N´eel-type skyrmion states", Phys. Rev. B, Vol. 95. 2017, pp. 094414. [More] [Online version] [Bibtex] [RIS]
  9. S. Mamica. "Spin-wave dynamics in the presence of magnetic vortices". InTech. 2017. pp. 317-334. [More] [Online version] [Bibtex] [RIS]
  10. P. Gruszecki, M. Mailyan, O. Gorobets and M. Krawczyk. "Goos-Haenchen shift of a spin-wave beam transmitted through anisotropic interface between two ferromagnets", Phys. Rev. B, Vol. 95. 2017, pp. 014421. [More] [Online version] [Bibtex] [RIS]
  11. N. Tahir et al. "Magnetization reversal mechanism in patterned (square to wave-like) Py antidot lattices", J. Phys. D: Appl. Phys., Vol. 50. 2017, pp. 025004. [More] [Online version] [Bibtex] [RIS]
  12. R. Gieniusz et al.. "Spin-Wave Optics In Patterned Garnet (chapter in "Spin Wave Confinement (Second Edition) - Propagating Waves")". S. O. Demokritov ed. http://www.panstanford.com/books/9789814774352.html : Pan Stanford. 2017. pp. 139-170. [More] [Online version] [Bibtex] [RIS]

Year: 2016

  1. P. Gruszecki, J. Rychły, M. Mruczkiewicz and M. Krawczyk. "Nonreciprocal properties of GHz frequency surface spin waves in nanopatterned ferromagnetic films". 2016 21st International Conference on Microwave, Radar and Wireless Communications (MIKON). 2016. [More] [Online version] [Bibtex] [RIS]
  2. N. N. Dadoenkova et al. "Complex waveguide based on a magneto-optic layer and a dielectric photonic crystal", Superlattices and Microstructures, Vol. 100. 2016, pp. 45. [More] [Online version] [Bibtex] [RIS]
  3. I. S. Panyaev et al. "Optical properties of a four-layer waveguiding nanocomposite structure in near-IR regime", Opt. Quant. Electron., Vol. 48. 2016, pp. 556. [More] [Online version] [Bibtex] [RIS]
  4. A. E. Serebryannikov, E. Colak, T. Magath and E. Ozbay. "Two types of single-beam deflection and asymmetric transmission in photonic structures without interface corrugations", Journal of the Optical Society of America A, Vol. 33. 2016, pp. 2450. [More] [Online version] [Bibtex] [RIS]
  5. I. S. Panyaev et al. "Four-layer nanocomposite structure as an effective optical waveguide switcher for near-IR regime", J. Phys. D: Appl. Phys., Vol. 49. 2016, pp. 435103. [More] [Online version] [Bibtex] [RIS]
  6. Y. S. Dadoenkova, N. N. Dadoenkova, I. L. Lyubchanskii, J. W. Kłos and M. Krawczyk. "Confined states in photonic-magnonic crystals with complex unit cell", J. Appl. Phys., Vol. 120. 2016, pp. 073903. [More] [Online version] [Bibtex] [RIS]
  7. M. Mruczkiewicz and M. Krawczyk. "Influence of the Dzyaloshinskii-Moriya interaction on the FMR spectrum of magnonic crystals and confined structures", Phys. Rev. B, Vol. 94. 2016, pp. 024434. [More] [Online version] [Bibtex] [RIS]
  8. A. E. Serebryannikov, A. Lakhtakia and E. Ozbay. "Single and cascaded, magnetically controllable metasurfaces as terahertz filters", J. Opt. Soc. Am. B, Vol. 33. 2016, pp. 834. [More] [Online version] [Bibtex] [RIS]
  9. E. Colak, A. E. Serebryannikov, P. V. Usik and E. Ozbay. "Diffraction inspired unidirectional and bidirectional beam splitting in defect-containing photonic structures without interface corrugations", J. Appl. Phys., Vol. 119. 2016, pp. 193108. [More] [Online version] [Bibtex] [RIS]
  10. M. Mruczkiewicz, P. Gruszecki, M. Zelent and M. Krawczyk. "Collective dynamical skyrmion excitations in a magnonic crystal", Phys. Rev. B, Vol. 93. 2016, pp. 174429. [More] [Online version] [Bibtex] [RIS]
  11. J. Rychły, J. W. Kłos and M. Krawczyk. "Spin wave damping in periodic and quasiperiodic magnonic structures", J. Phys. D: Appl. Phys., Vol. 49. 2016, pp. 75001. [More] [Online version] [Bibtex] [RIS]
  12. S. Mamica. "Magnetoferritin Nanoparticles as a Promising Building Blocks for Three-Dimensional Magnonic Crystals". J. -. Levy ed. Pan Stanford Publishing. 2016. pp. 123. [More] [Online version] [Bibtex] [RIS]
  13. S. Mamica. "In-Plane Magnetic Vortices in Two-Dimensional Nanodots". J. -. Levy ed. Pan Stanford Publishing. 2016. pp. 123. [More] [Online version] [Bibtex] [RIS]
Results 76 - 100 of 179