Publication detail

Propagation of spin waves through a Neel domain wall

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

Original Title

Propagation of spin waves through a Neel domain wall

Type

journal article in Web of Science

Language

English

Original Abstract

Spin waves have the potential to be used as a next-generation platform for data transfer and processing as they can reach wavelengths in the nanometer range and frequencies in the terahertz range. To realize a spin-wave device, it is essential to be able to manipulate the amplitude as well as the phase of spin waves. Several theoretical and recent experimental works have also shown that the spin-wave phase can be manipulated by the transmission through a domain wall (DW). Here, we study propagation of spin waves through a DW by means of micro-focused Brillouin light scattering microscopy (mu BLS). The 2D spin-wave intensity maps reveal that spin-wave transmission through a Neel DW is influenced by a topologically enforced circular Bloch line in the DW center and that the propagation regime depends on the spin-wave frequency. In the first regime, two spin-wave beams propagating around the circular Bloch line are formed, whereas in the second regime, spin waves propagate in a single central beam through the circular Bloch line. Phase-resolved mu BLS measurements reveal a phase shift upon transmission through the domain wall for both regimes. Micromagnetic modeling of the transmitted spin waves unveils a distortion of their phase fronts, which needs to be taken into account when interpreting the measurements and designing potential devices. Moreover, we show that, by means of micromagnetic simulations, an external magnetic field can be used to move the circular Bloch line within the DW and to manipulate spin-wave propagation.

Keywords

spin waves

Authors

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

Released

13. 7. 2020

Publisher

AMER INST PHYSICS

Location

MELVILLE

ISBN

1077-3118

Periodical

Applied Physics Letters

Year of study

117

Number

2

State

United States of America

Pages from

022405-1

Pages to

022405-5

Pages count

5

URL