Thermal noise in complex systems

Glaser, Rene; Knupfer, Klara T.; Maczewsky, Lukas; Mäusezahl, Max; Nawrodt, Ronny; Cole, Garrett D.; Dickmann, Johannes; Kroker, Stefanie

doi:10.48550/arXiv.1809.10720

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Thermal noise in complex systems

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posted on 2023-11-30, 06:22 authored by Rene Glaser, Klara T. Knupfer, Lukas Maczewsky, Max Mäusezahl, Ronny Nawrodt, Garrett D. Cole, Johannes Dickmann, Stefanie Kroker

We present a method to calculate the power spectral density of Brownian noise in complex optomechanical systems using Levin's approach of virtual pressure and present first mechanical loss measurements for high-purity GaAs over a wide temperature range from 7 K to 250 K. The loss reveals three Debye loss peaks. Each peak corresponds to an Arrhenius-like relaxation process with activation energies of 17.9 meV, 65.4 meV and 123 meV respectively. Additional light induced damping was observed for photon energies below and above the fundamental gap of GaAs in contrast to observations by Okamoto et al.

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physics.app-ph (arXiv)physics.optics (arXiv)

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Thermal noise in complex systems

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