Yale physicists have discovered a sophisticated, previously unknown set of "modes" within the human ear that put important ...

Yale researchers discovered new cochlear hearing modes that influence how the ear amplifies sound and processes frequencies.

Recent research has focused on understanding the mechanics of the cochlea, particularly the role of the basilar membrane (BM) and outer hair cells (OHCs) in sound processing. These studies have ...

Yale physicists uncover a new set of hearing modes in the human ear, revealing complex cochlear mechanics that enhance sound ...

See cochlea for diagram. Incoming vibrations set up a travelling wave along the membrane ... generating electrical potentials that stimulate the auditory nerve. The bulging of the basilar membrane as ...

Yale physicists have discovered a sophisticated, previously unknown set of “modes” within the human ear that put important ...

Its floor is formed by the osseous spiral lamina and the basilar membrane, which separate the cochlear duct from the scala tympani. Figure 1A. The ear has 3 parts. Conductive hearing loss usually ...

Its orderly rows of outer hair cells is unique among the organs of the body. Figure 5 shows a short section of the organ of Corti as it spirals in the cochlea. The organ of Corti is larger and the ...