Journal ArticleDOI
Transient response of the basilar membrane measured in squirrel monkeys using the Mössbauer effect
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Measurements of the transient response of the basilar membrane were conducted using the Mossbauer effect on 33 squirrel monkeys using an experimental preparation identical to that of Rhode ( 1971), showing consistency with nonlinearity reported using steady‐state measurement methods.Abstract:
Measurements of the transient response of the basilar membrane were conducted using the Mossbauer effect on 33 squirrel monkeys using an experimental preparation identical to that of Rhode (1971). The stimuli were acoustic clicks 150 μsec in duration repeated 100 000–400 000 times. The amplitude of the click was varied and the responses of the malleus and of the basilar membrane at a point in the basal turn were measured. The basilar membrane’s click response is oscillatory, with a period near that of the characteristic frequency. The first few response peaks behave almost linearly with stimulus intensity, while the later peaks exhibit a pronounced nonlinearity. This behavior is shown to be consistent with the nonlinearity reported using steady‐state measurement methods (Rhode, 1971). The transient response observed in some of the preparations was very lightly damped; however, a wide range in the damping of the responses was found in the different animals. A progressive increase in the rate of decay of th...read more
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Traveling Waves, Second Filters, and Physiological Vulnerability: A Short History of the Discovery of Active Processes in Hearing
TL;DR: Descartes, in the Treatise of Man, suggested how nerve stimulation could evoke reflex responses, and Helmholtz suggested that neural responses to sound were entirely driven by the amplitude of the individual sound impulses, and that frequency coding in hearing was accomplished by the time pattern of the neural stimulation from the ear to the brain.
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TL;DR: In this article, the authors analyzed basilar membrane (BM) responses to clicks recorded at several locations in the base of the chinchilla cochlea and found that BM responses arise from a combination of fast and slow traveling waves.
Journal ArticleDOI
Otoacoustic emission estimates of human basilar membrane impulse response duration and cochlear filter tuning
Stefan Raufer,Sarah Verhulst +1 more
TL;DR: The proposed temporal suppression method based on temporal suppression of click-evoked otoacoustic emissions is applicable for stimulus levels above 30-40 dB SPL and complements existing OAE methods to assess human cochlear filter tuning.
Journal ArticleDOI
Asymmetry and Microstructure of Temporal-Suppression Patterns in Basilar-Membrane Responses to Clicks: Relation to Tonal Suppression and Traveling-Wave Dispersion
TL;DR: This work investigates the suppression of basilar-membrane velocity responses to a transient signal by another click or tone and demonstrates that the suppression microstructure arises from alternating constructive and destructive interference between the BM responses to the two clicks.
Journal ArticleDOI
Cochlear impulse responses resolved into sets of gammatones: the case for beating of closely spaced local resonances.
Andrew Bell,Hero P. Wit +1 more
TL;DR: A curve-fitting algorithm is used to decompose five examples of basilar membrane impulse responses and uses a SOG method to accurately represent the impulse response waveforms, finding that at least two and up to six gammatones could be isolated from each example.