Light modulation by resonance excitations of periodic stripe domain lattices in magnetic garnet films

Bosse, A.; Lührmann, B.; Dötsch, H.; Sure, S.; Tolksdorf, W.

doi:10.1002/pssa.2211410222

Cited by 8 publications

(1 citation statement)

References 9 publications

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“…In some kind of self-organization process the patterns are formed spontaneously and possess reconfigurable properties [444]. In thin films containing stripe domains, SW excitation spectra are complex, as nonuniform internal fields are relevant and domain wall oscillations in the low GHz frequency regime contribute to the spectra [445][446][447][448][449][450]. Still, the ferromagnetic material is homogeneous.…”

Section: Cross-field Applications Of Magnonic Crystalsmentioning

confidence: 99%

Review and prospects of magnonic crystals and devices with reprogrammable band structure

Krawczyk

Grundler

2014

J. Phys.: Condens. Matter

552

446

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Research efforts addressing spin waves (magnons) in microand nanostructured ferromagnetic materials have increased tremendously in recent years. Corresponding experimental and theoretical work in magnonics faces significant challenges in that spinwave dispersion relations are highly anisotropic and different magnetic states might be realized via, for example, the magnetic field history. At the same time, these features offer novel opportunities for wave control in solids going beyond photonics and plasmonics. In this topical review we address materials with a periodic modulation of magnetic parameters that give rise to artificially tailored band structures and allow unprecedented control of spin waves. In particular, we discuss recent achievements and perspectives of reconfigurable magnonic devices for which band structures can be reprogrammed during operation. Such characteristics might be useful for multifunctional microwave and logic devices operating over a broad frequency regime on either the macroor nanoscale.

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Section: Cross-field Applications Of Magnonic Crystalsmentioning

confidence: 99%

Review and prospects of magnonic crystals and devices with reprogrammable band structure

Krawczyk

Grundler

2014

J. Phys.: Condens. Matter

552

446

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Excitations of stripe domain lattices in perpendicularly magnetized garnet films

Fehndrich

Dötsch

1996

Phys. Stat. Sol. (a)

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Magnetic garnet films of composition Y3–xBixFe5–yAlyO12 are grown by liquid phase epitaxy on [111] and [110] oriented substrates of gadolinium gallium garnet. They have high uniaxial anisotropy and support lattices of parallel stripe domains. The two branches DR+ and DR− of the domain resonance are excited by rf magnetic fields polarized in the film plane. Resonance frequencies of more than 7 GHz are observed; they are measured as function of a static induction B⟂ applied perpendicular to the film plane. With increasing B⟂ the resonance mode DR+ is confined to the small domain with equilibrium magnetization antiparallel to B⟂, while DR− is confined in the larger stripe having equilibrium magnetization parallel to B⟂. At the collapse induction the DR− mode merges into the ferrimagnetic resonance. The resonance modes DR± are calculated using a new method to determine the demagnetizing energy. Excellent agreement between theory and experiment is obtained.

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Applications of Magnetic Garnet Films in Optical Communication

Dötsch¹,

Erdmann²,

Fehndrich³

et al. 1996

Nonlinear Microwave Signal Processing: Towards a New Range of Devices

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Light modulation by resonance excitations of periodic stripe domain lattices in magnetic garnet films

Cited by 8 publications

References 9 publications

Review and prospects of magnonic crystals and devices with reprogrammable band structure

Review and prospects of magnonic crystals and devices with reprogrammable band structure

Excitations of stripe domain lattices in perpendicularly magnetized garnet films

Applications of Magnetic Garnet Films in Optical Communication

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