Mechanical vibrations of Hensen cells were measured with a laser-heter
odyne interferometer in the third turn of the guinea-pig temporal-bone
preparation without the application of an external stimulus. Smoothed
periodograms (spectral-density estimates vs frequency) were construct
ed from the velocity vs time waveforms recorded from individual cells.
For some cells, several peaks appear in the periodograms at levels as
high as 10 dB above the noise floor, indicating the presence of spont
aneous vibrations. The frequencies at which the peaks are located diff
er in different preparations, indicating that the observed peaks are n
ot caused by the presence of ambient noise or ambient vibrations. It i
s demonstrated that smoothed-periodogram analysis is superior to fast-
Fourier-transform analysis for discerning these spontaneous spectral c
omponents. The frequency tuning curves of cells from which spontaneous
vibrations were measured (determined by applying an external stimulus
to the ear) have single principal peaks. When the spontaneous spectra
l features are present, their frequencies lie, for the most part, with
in the principal-peak region of the tuning curve. We propose that thes
e spontaneous vibrations originate at the outer hair cells and are the
source of spontaneous otoacoustic emissions in the ear.