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*To*: AUDITORY@xxxxxxxxxxxxxxx*Subject*: propagation speed of the traveling wave*From*: "Rossi Mark (PA-ATMO1/EES21) *" <Mark.Rossi@xxxxxxxxxxxx>*Date*: Fri, 8 Apr 2005 12:21:19 +0200*Delivery-date*: Fri Apr 8 06:36:22 2005*Reply-to*: "Rossi Mark (PA-ATMO1/EES21) *" <Mark.Rossi@xxxxxxxxxxxx>*Sender*: AUDITORY Research in Auditory Perception <AUDITORY@xxxxxxxxxxxxxxx>*Thread-index*: AcU8JLRbbVi0jp+XQt6Hlqh00/A2gg==*Thread-topic*: propagation speed of the traveling wave

Dear list, in order to estimate the propagation time of the traveling wave on the BM for certain frequencies I need to know the propagation speed of the wave. In @article{HEI05, author = {Heijden, Marcel van der}, title = {Cochlear gain control}, journal = {The Journal of the Acoustical Society of America}, volume = 117, number = 3, pages = {1223-1233}, month = mar, year = 2005 } I found that the propagation speed is frequency dependent. Are there any more detailed articles, which (hopefully) contain kind of a 'delay profile'? That is the time it takes for a given frequency to evoke a stimulus at the 'proper' hair cells. Reference time for the delay time is the moment at which a stimulus is evoked for the highest perceptable frequency resp. at the base of the BM. Best regards, Mark Rossi

**Follow-Ups**:**Re: propagation speed of the traveling wave***From:*David Mountain

**Re: propagation speed of the traveling wave***From:*Reinhart Frosch

**Re: propagation speed of the traveling wave***From:*Reinhart Frosch

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