Detail publikačního výsledku

Wideband Brillouin light scattering analysis of spin waves excited by a white-noise RF generator

FLAJŠMAN, L.; WOJEWODA, O.; QIN, H.; DAVÍDKOVÁ, K.; URBÁNEK, M.; VAN DIJKEN, S.

Originální název

Wideband Brillouin light scattering analysis of spin waves excited by a white-noise RF generator

Anglický název

Wideband Brillouin light scattering analysis of spin waves excited by a white-noise RF generator

Druh

Článek WoS

Originální abstrakt

Spin waves are studied intensively for their intriguing properties and potential use in future technology platforms for the transfer and processing of information and microwave signals. The characterization of devices and materials for magnonic systems is time-consuming, and thus, the development of instruments that can speed up the collection and analysis of spin-wave data is crucial. In this Letter, we report a straightforward approach to enhance the measurement throughput by fully exploiting the wideband detection nature of the Brillouin light scattering technique with a white-noise RF generator.

Anglický abstrakt

Spin waves are studied intensively for their intriguing properties and potential use in future technology platforms for the transfer and processing of information and microwave signals. The characterization of devices and materials for magnonic systems is time-consuming, and thus, the development of instruments that can speed up the collection and analysis of spin-wave data is crucial. In this Letter, we report a straightforward approach to enhance the measurement throughput by fully exploiting the wideband detection nature of the Brillouin light scattering technique with a white-noise RF generator.

Klíčová slova

Spin waves are studied intensively for their intriguing properties and potential use in future technology platforms for the transfer and processing of information and microwave signals. The characterization of devices and materials for magnonic systems is time-consuming, and thus, the development of instruments that can speed up the collection and analysis of spin-wave data is crucial. In this Letter, we report a straightforward approach to enhance the measurement throughput by fully exploiting the wideband detection nature of the Brillouin light scattering technique with a white-noise RF generator.

Klíčová slova v angličtině

Spin waves are studied intensively for their intriguing properties and potential use in future technology platforms for the transfer and processing of information and microwave signals. The characterization of devices and materials for magnonic systems is time-consuming, and thus, the development of instruments that can speed up the collection and analysis of spin-wave data is crucial. In this Letter, we report a straightforward approach to enhance the measurement throughput by fully exploiting the wideband detection nature of the Brillouin light scattering technique with a white-noise RF generator.

Autoři

FLAJŠMAN, L.; WOJEWODA, O.; QIN, H.; DAVÍDKOVÁ, K.; URBÁNEK, M.; VAN DIJKEN, S.

Rok RIV

2023

Vydáno

05.12.2022

Nakladatel

AIP Publishing

Místo

MELVILLE

ISSN

1077-3118

Periodikum

Applied Physics Letters

Svazek

121

Číslo

23

Stát

Spojené státy americké

Strany počet

5

URL

https://aip.scitation.org/doi/10.1063/5.0124764

BibTex

@article{BUT181663,
  author="Lukáš {Flajšman} and Ondřej {Wojewoda} and Huajun {Qin} and Kristýna {Davídková} and Michal {Urbánek} and Sebastiaan {van Dijken}",
  title="Wideband Brillouin light scattering analysis of spin waves excited by a white-noise RF generator",
  journal="Applied Physics Letters",
  year="2022",
  volume="121",
  number="23",
  pages="5",
  doi="10.1063/5.0124764",
  issn="0003-6951",
  url="https://aip.scitation.org/doi/10.1063/5.0124764"
}