Scattering of thermal phonon pulses by isotopes in silicon |
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Authors: | A. Mrzyglod O. Weis |
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Affiliation: | (1) Abteilung Festkörperphysik, Universität Ulm, D-89069 Ulm, Germany |
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Abstract: | The pure ballistic propagation of acoustic phonons in crystals at low temperatures can be described within anisotropic continuum acoustics. One needs only the elastic constants and mass densities to calculate the time-dependent spectral phonon irradition of the bolometer for a given radiator pulse power and detector/radiator geometry. We extend this treatment by including single isotope-scattering events for the phonons in a (111)-cut silicon disk on their flight from the radiator to the detector. Using the earlier experimentally determined polarization and frequency dependent phonon absorption in the bolometer metal, the instantaneous temperature of the bolometer can be calculated from this irradiation. This allows a direct comparison with measured bolometer temperatures using exactly the same transmission or reflection arrangement as in calculation. A very satisfying agreement is observed in the expected range of single phonon scattering. |
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Keywords: | 63.20 43.35 |
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