Excitation and Detection of Spinwaves with Light
Abstract
Spinwaves (SWs) are a collective excitation of the local spin moments in a magnetic
ordered medium. Spinwaves can be excited electrically using microwave
sources, direct currents, and by focused optical short pulses on a thin magnetic
film. Spinwaves are utilized in many emerging concepts for new technologies.
But the SWs in almost all proof-of-principle SW devices are generated using
electrical currents, inductive transducers and antenna structures, which severely
limit scalability and the operating frequencies. It has recently been shown that it
is possible to create and control SWs of high amplitude using a high repetition
rate femtosecond pulsed laser (fs-laser). However, the impact of different material
parameters is still unknown as the original demonstration of the technique
was conducted using a single NiFe (Py) ferromagnetic thin film with a thickness
(20 nm) comparable to the laser penetration depth.
In this project, we investigate SWs excited by fs-laser pulse trains (laser comb
with 1 GHz repetition rate) using Brillouin Light Scattering (BLS) microscopy.
We demonstrate that previous results are reproducible using a much thicker 100
nm film. Furthermore, in such thicker films, optical stimulation of SWs is clearly
observed to be efficient with harmonic frequencies up to 15 multiples of the repetition
rate of the pulsed fs-laser. The SW BLS intensity exhibits a stronger than
parabolic dependence on the laser fluence, and the heat-induced demagnetization
is found to follow the Bloch T3/2 law.
Moreover, we show that the optical excitation of sustained SWs is reproducible
over a wide range of film thicknesses (20-100 nm) and the efficiency is inversely
proportional to the film thickness. In order to further corroborate our conclusions
and to enhance the spin wave excitation efficiency, additional measurements on a
gold-doped Py sample were done. They showed the expected enhanced excitation
efficiency compared to the pristine film.
Degree
Student essay
Collections
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Date
2020-07-03Author
Bergström, Hannes
Lundgren, Ossian
Rydbjer, Isac
Samuelsson, Mathias
Örtenberg Toftås, Mathias
Tornberg, Nils
Language
eng