We report on a nanoscaled thermocouple (ThC) as a temperature sensor of a highly sensitive bolometer for probing the dissipative damping of spin dynamics in nanosized Permalloy (Py) stripes. The Au-Pd ThC based device is fabricated by standard electron beam lithography on a 200 nm silicon nitride membrane to minimize heat dissipation through the substrate. We show that this thermal sensor allows not only measurements of the temperature change on the order of a few mK due to the uniform resonant microwave (MW) absorption by the Py stripe but also detection of standing spin waves of different mode numbers. Using a 3D finite element method, we estimate the absorbed MW power by the stripe in resonance and prove the necessity of using substrates with an extremely low heat dissipation like a silicon nitride membrane for successful thermal detection. The voltage responsivity and the noise equivalent power for the ThC-based bolometer are equal to 15 V W −1 and 3 nW Hz −1/2<...
Irina Rod, Ralf Meckenstock, Horst Zähres, Christian Derricks, Fedor Mushenok, Nathalie Reckers, Puchong Kijamnajsuk, Ulf Wiedwald and Michael Farle
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Irina Rod, Ralf Meckenstock, Horst Zähres, Christian Derricks, Fedor Mushenok, Nathalie Reckers, Puchong Kijamnajsuk, Ulf Wiedwald and Michael Farle
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