Cochlear amplification of basilar membrane traveling waves is thought to occur between a
tone's characteristic frequency (CF) place and within one octave basal of the CF. Evidence …

According to coherent reflection theory, otoacoustic emissions (OAE) evoked with clicks
(clicked-evoked, CE) or tones (stimulus frequency, SF) originate via the same mechanism …

The cochlea's wave-based signal processing allows it to efficiently decompose a complex
acoustic waveform into frequency components. Because cochlear responses are nonlinear …

Normal hearing is associated with cochlear nonlinearity. When two tones (f1 and f2) are
presented, the intracochlear response contains additional components that can be recorded …

The cochlear microphonic (CM) is created primarily by the receptor currents of outer hair
cells (OHCs) and may therefore be useful for identifying cochlear regions with impaired …

A frequency-domain iterative approach is developed to compute the change in characteristic
impedance in the cochlea due to the presence of a suppressor tone. Based on this …

Stimulus-frequency otoacoustic emissions (SFOAEs) are generated by coherent reflection of
forward traveling waves by perturbations along the basilar membrane. The strongest …

Recent optical measurements of vibrations of the organ of Corti contrast with those of the
basilar membrane in their larger amplitude and much wider bandwidth of active gain and …

Stimulus frequency otoacoustic emissions (SFOAEs) appear to originate primarily in the
cochlear region of the CF place of the evoking probe tone. It is commonly believed that …

A point-wise artifact rejection method for estimating transient-evoked otoacoustic emissions
and their group delay | JASA Express Letters | AIP Publishing Skip to Main Content …