The peaked cochlear tonotopic response does not show the typical phenomenology of a resonant system. Simulations of a 2 D viscous model show that the position of the peak is determined by the competition between a sharp pressure boost due to the increase in the real part of the wavenumber as the forward wave enters the short-wave region, and a sudden increase in the viscous losses, partly counteracted by the input power provided by the outer hair cells. This viewpoint also explains the peculiar experimental behavior of the cochlear admittance (broadly tuned and almost level-independent) in the peak region.
Sisto, R., Moleti, A. (2024). The tonotopic cochlea puzzle: A resonant transmission line with a “non-resonant” response peak. JASA EXPRESS LETTERS, 4(7) [10.1121/10.0028020].
The tonotopic cochlea puzzle: A resonant transmission line with a “non-resonant” response peak
Arturo Moleti
2024-01-01
Abstract
The peaked cochlear tonotopic response does not show the typical phenomenology of a resonant system. Simulations of a 2 D viscous model show that the position of the peak is determined by the competition between a sharp pressure boost due to the increase in the real part of the wavenumber as the forward wave enters the short-wave region, and a sudden increase in the viscous losses, partly counteracted by the input power provided by the outer hair cells. This viewpoint also explains the peculiar experimental behavior of the cochlear admittance (broadly tuned and almost level-independent) in the peak region.| File | Dimensione | Formato | |
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