Cells are sensitive to many forms of stimuli including light and heat, but little is known about the cellular response to ...

The cochlea achieves this by converting incoming sound waves into surface waves along the basilar membrane — a hair-lined structure that responds differently depending on the frequency of the sound.

"Hearing relies on the cochlea, a spiral-shaped organ in the inner ear that converts sound waves into neural signals," said research team leader Kazunori Serita from Waseda University in Japan.

Concluding that female ears can be up to six kHz sharper than male ears in some populations, the team said women not only show “heightened cochlear sensitivity” – referring to the fluid-filled part of ...

A cutting-edge study reveals how terahertz (THz) imaging technology has unlocked a new way to peer inside the intricate ...

Hearing relies on the cochlea, a spiral-shaped organ in the inner ear that converts sound waves into neural signals. Any structural or functional impairment of the cochlea can lead to hearing loss ...

microphones measure sound waves for feedback control. The cubes can be viewed as building blocks for building more complex systems that go beyond a simple line. "When you see the cochlea ...

“Hearing relies on the cochlea, a spiral-shaped organ in the inner ear that converts sound waves into neural signals,” said research team leader Kazunori Serita from Waseda University in Japan.

Hearing relies on the cochlea, a spiral-shaped organ in the inner ear that converts sound waves into neural signals. Any structural or functional impairment of the cochlea can lead to hearing loss ...