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

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

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

Physicists have discovered a sophisticated, previously unknown set of 'modes' within the human ear that put important constraints on how the ear amplifies faint sounds, tolerates noisy blasts, and ...

Yale physicists have discovered a sophisticated, previously unknown set of “modes” within the human ear that put important constraints on how the ear amplifies faint sounds, tolerates noisy blasts, ...

The main drawback of this approach is that the recording site moves during insertion, so several factors besides trauma to the cochlea contribute to the temporal dynamics of the signal, such as the ...

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 ...

The cochlea contains fluid, hair cells, and a structure called the basilar membrane. The propelled sound causes the fluid and basilar membrane to move back and forth, causing the hair cells to ...

Research: Rehabilitation of human hearing with a totally implantable cochlear implant: a feasibility study. Image Credit: decade3d - anatomy online / Shutterstock Scientists have developed a ...

Interdisciplinary Life Sciences, The University of Texas at Austin, Austin, Texas 78712, United States Department of Integrative Biology, The University of Texas at Austin, Austin, Texas 78712, United ...