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A second, low-frequency mode of vibration in the intact mammalian cochlea
Andrei N. Lukashkin
,
Ian J. Russell
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peer-review
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Keyphrases
Tectorial Membrane
100%
Mammalian Cochlea
100%
Vibration Mode
100%
Low-frequency Modes
100%
Receptor Cells
100%
Mechanical Systems
50%
Guinea pig
50%
Cochlea
50%
Stereocilia
50%
Stimulus Intensity
50%
Number of Components
50%
Phase Behavior
50%
Reticular Lamina
50%
Level Dependence
50%
Otoacoustic Emissions
50%
Two-tone
50%
Cochlear Mechanics
50%
Nonlinear Resonance
50%
Multiple Normals
50%
Elastic Element
50%
Resonance Shift
50%
Oscillation Mode
50%
Ear Canal
50%
Primary Frequency
50%
Counter-phase
50%
Dynamic Load
50%
Engineering
Normal Modes
100%
Connected Component
100%
Mechanical Systems
100%
Dynamic Loads
100%
Stimulus Intensity
100%
Elastic Element
100%
Vibration Mode
100%
Ear Canal
100%
Biochemistry, Genetics and Molecular Biology
Guinea Pig
100%
Reticular Lamina
100%
Otoacoustic Emission
100%
Stereocilia
100%
Neuroscience
Cell Receptor
100%
Cochlea
100%
Behavior (Neuroscience)
50%
Stereocilia
50%
Reticular Lamina
50%