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Second thoughts on the second filter with special reference to the Kemp echo
Published online by Cambridge University Press: 29 June 2007
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- Copyright © JLO (1984) Limited 1982
References
REFERENCES
Bergeijk, W. A. (1957) Models of the basilar papilla of the Frog. Journal of the Acoustical Society of America, 29: 1159–1162.CrossRefGoogle Scholar
Coles, R. R. A., Snashall, R. E. and Stephens, S. D. G. (1975) Some varieties of objective tinnitus. British Journal of Audiology, 9: 9–16.CrossRefGoogle Scholar
Crawford, A. C. and Fetttplace, R. (1980) Frequency selectivity in the cochlea of the Turtle. Journal of Physiology, 306: 249–257.CrossRefGoogle ScholarPubMed
Dallos, P., Ryan, A., Harris, D. and Ozdamar, O. (1977) Frequency selectivity in hair cell damage. In: Psychophysics and Physiology of Hearing, Academic Press, pp. 249–252.Google Scholar
Evans, E. F. (1975) Abnormal functioning of the cochlear nerve, Symposium of the Zoological Society of London, 37: 133–165.Google Scholar
Frishkopf, L. S. (1963) Responses from single units of the 8th nerve of Bull Frog. Journal of the Accoustical Society of America, 35: 1219–1238.CrossRefGoogle Scholar
Harpur, E. S. (1979) Gentamicin damaged organ of Corti. Journal of Laryngology and Otology, 93: 7–23.CrossRefGoogle ScholarPubMed
Kemp, D. T. (1978) Stimulated acoustic emissions in human auditory system, Journal of the Acoustical Society of America, 64: 1386–1391.CrossRefGoogle ScholarPubMed
Khanna, S. M. and Leonard, D. G. B. (1982) Basilar membrane tuning in the cat cochlea. American Association for the advancement of Science, 215: 305–306.CrossRefGoogle ScholarPubMed
Koshigoe, S. and Tubis, A. (1982) Frequency domain investigations of cochlear stability in the presence of negative damping. Journal of the Acoustical Society of America, Supplement 1, 71: 16.CrossRefGoogle Scholar
Manley, G. A. (1977) Interaction between hair cells. In Psychophysics and Physiology of Hearing Academic Press, pp. 139–146.Google Scholar
Nelly, S. T. and Kim, D. O. (1982) An active model for sharp tuning and high sensitivity in cochlear mechanics. Journal of the Acoustical Society of America, Supplement 1, 71: 16–17.CrossRefGoogle Scholar
Pumphrey, R. J. and Gold, T. (1948) Phase memory of the ear: a Proof of the Resonance Hypothesis. Nature, 161: 640.CrossRefGoogle Scholar
Russell, I. J. and Sellick, P. M. (1978) Intercellular potentials of cochlear hair cells. Journal of Physiology, 284: 261–290.CrossRefGoogle Scholar
Tumarkin, A. (1945) A contribution to the theory of the auditory apparatus. Journal of Laryngology and Otology, 60: 337–368.CrossRefGoogle Scholar
Tumarkin, A. (1978) A new theory of cochlear function. British Journal of Audiology, 12: 119–122 (Part 1).CrossRefGoogle ScholarPubMed
Tumarkin, A. (1979) A new theory of cochlear function. British Journal of Audiology, 13: 15–18 (Part 2).CrossRefGoogle ScholarPubMed
Tumarkin, A. (1982) Bimodal Hearing, the controversial second filter and the mystery of the missing O.H.C. afferents. Journal of Laryngology and Otology, 96: 297–308.CrossRefGoogle Scholar
Zwislocki, J. J. and Sokolich, W. G. (1974) Frequency analysis in the cochlea. In: Facts and models (Edits Zwicker, E. and Terhardt, E.), Springer, Berlin.Google Scholar