Pages that link to "Q50510339"

The following pages link to The effect of sound intensity on f1-sweep and f2-sweep distortion product otoacoustic emissions phase delay estimates in human adults (Q50510339):

Displaying 14 items.

• Perception of across-frequency asynchrony by listeners with cochlear hearing loss (Q30433739) (← links)
• Perception of across-frequency asynchrony and the role of cochlear delays (Q30459538) (← links)
• A resonance approach to cochlear mechanics (Q30461105) (← links)
• Distortion product otoacoustic emission phase and component analysis in human newborns (Q30477828) (← links)
• Similarity of traveling-wave delays in the hearing organs of humans and other tetrapods (Q30492484) (← links)
• Group delay of acoustic emissions in the ear. (Q48672853) (← links)
• Behaviors of cubic distortion product otoacoustic emissions evoked by amplitude modulated tones (Q50434760) (← links)
• Concurrent measurement of distortion product otoacoustic emissions and auditory steady state evoked potentials (Q50484782) (← links)
• Noise suppression of transient-evoked otoacoustic emissions. II. Derived narrow-band contributions (Q50496657) (← links)
• An examination of gender differences in DPOAE phase delay measurements in normal-hearing human adults (Q50496966) (← links)
• Human auditory steady-state responses to amplitude-modulated tones: phase and latency measurements (Q50497384) (← links)
• Estimating cochlear filter response properties from distortion product otoacoustic emission (DPOAE) phase delay measurements in normal hearing human adults (Q50505101) (← links)
• Measurement of distortion product phase in the ear canal of the cat (Q73888543) (← links)
• Delay analysis in the auditory brainstem of the rat: comparison with click latency (Q74420138) (← links)