What type of force does the cochlear amplifier produce?

Abstract

Recent experimental measurements suggest that the mechanical displacement of the basilar membrane (BM) near threshold in a viable mammalian cochlea is greater than 10− 8 cm, for a stimulus sound‐pressure level at the eardrum of 20 μPa. The associated response peak is very sensitive to the physiological condition of the cochlea. In the formulation of all recent cochlear models, it has been explicitly assumed that this peak is produced by the c o c h l e a r a m p l i f i e r injecting a large amount of energy into the cochlea, thereby altering the r e a l component of the BM impedance. In this paper, a new cochlear model is described which produces a realistic response by assuming that the cochlear amplifier force acts at a phase such that the main effect is to reduce the i m a g i n a r y component of the BM impedance. In this new model, the magnitude of the cochlear amplifier force required to produce a realistic response is much smaller than in the previous models. It is suggested that future experimental investigations should attempt to determine both the magnitude a n d the phase of the forces associated with the cochlear amplifier.