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Miscellaneous Article

References

Pages 65-66 | Published online: 08 Jul 2009

Reference

  • Békésy G. v. Experiments in hearing. McGraw-Hill, New York 1960a
  • Békésy G. V. In Neural mechanisms of the auditory and vestibular systems, G. L. Rasmussen, W. F. Windle. C. C. Thomas, Springfield, Ill. 1960b; 92
  • Békésy G. V., Rosenblith W. A. The mechanical properties of the ear. Handbook of experimental psychology, S. S. Stevens. Wiley, New York 1951; 115, 1075–1
  • de Boer E. Reverse correlation II. Proc. Koninkl. Nederl. Akad. Wetenschappen 1969; 72: 129–151
  • Dallos P. Comments on the differential electrode technique. J. Acoust. Soc. Amer. 1969a; 45: 999–1007
  • Dallos P. Combination tones in cochlear microphonic potentials. Frequency analysis and periodicity detection in hearing, R. Plomp, G. F. Smoorenburg. Driebergen Symposium, Sijthoff, LeidenThe Netherlands 1969b
  • Davis H. Acoustic trauma in the guinea pig. J. Acoust. Soc. Amer. 1953; 25: 1180–1189, associates.
  • Davis H., Eldredge D. H. An interpretation of the mechanical detector action of the cochlea. Ann. Otol. 1959; 68: 665–674
  • Engebretson A. M., Eldredge D. H. Model for the nonlinear characteristics of cochlear potentials. J. Acoust. Soc. Amer. 1968; 44: 548–554
  • Engström H., Ades H. W., Anderson A. Structural pattern of the organ of Corti. Almqvist & Wiksell, Stockholm 1966
  • Evans E. F. 1970a Narrow 'tuning' of cochlear nerve fibre responses in the guinea pig. Proc. Physiol. Soc. 7–8 Nov., 1969, I. Physiol., In press
  • Evans E. F. 1970b Narrow 'tuning' of the responses of cochlear nerve fibres emanating from the exposed basilar membrane. Proc. Physiol. Soc. 20–21 March, 1970, J. Physiol., In press
  • Fernández C. Dimensions of the cochlea (guinea pig). J. Acoust. Soc. Amer. 1952; 24: 519–523
  • Fex J. The olivocochlear feedback systems. Sensorineural hearing processes and disorders, A. B. Graham. Henry Ford Hospital, Detroit, Symposium. Little, Brown & Co., Boston, Mass. 1965; 77–86
  • Flanagan J. L. Models for approximating basilar membrane displacement. Bell System. Tech. J. 1960; 39: 1163–1192
  • Gold T., Pumphrey J., Hearing I. The cochlea as a frequency analyzer. Proc. Roy. Soc. B. 1947/48; 135: 462–491
  • Greenwood D. D. Critical bandwidth and the frequency co-ordinates of the basilar membrane. J. Acoust. Soc. Amer. 1961; 33: 1344–1356
  • Honrubia V., Ward P. H. Longitudinal distribution of the cochlear microphonics inside the cochlear duct (guinea pig). J. Acoust. Soc. Amer. 1968; 44: 951–957
  • Huggins W. H. A theory of Hearing. Air Force Cambridge Research Center Tech. Report. Cambridge, Mass 1953; 53–14
  • Huxley A. F. Is resonance possible in the cochlea after all. Nature 1969; 221: 935–940
  • Johnstone B. M., Johnstone J. R., Pugsley I. D. Membrane resistance in endolymphatic walls of the first turn of the guinea pig cochlea. J. Acoust. Soc. Amer. 1966; 40: 1398–1404
  • Johnstone J. R., Johnstone B. M. Origin of summating potential. J. Acoust. Soc. Amer. 1966; 40: 1405–1413
  • Johnstone B. M., Boyle A. J. F. Basilar membrane vibration examined with the Mössbauer technique. Science 1967; 158: 389–390
  • Johnstone B. M. Mechanical aspects of cochlear function. Frequency analysis and periodicity detection in hearing, R. Plomp, R. F. Smoorenburg. Driebergen Symposium, Sijthoff, LeidenThe Netherlands 1969
  • Katsuki Y., Sumi T., Uchiyama H., Watanabe T. Electric responses of auditory neurons in cat to sound stimulation. J. Neurophysiol. 1958; 21: 569–588
  • Kiang N. Y.-S. Discharge patterns of single fibers in the cat's auditory nerve. M.I.T. Press, Cambridge, Mass. 1965
  • Kohllöffel L. U. E. Longitudinal amplitude and phase distribution of the cochlear microphonic (guinea pig) and spatial filtering. J. Sound. Vib. 1970; 11: 325–334
  • Kohllöffel L. U. E. Cochlear microphonics distribution and spatial filtering. Frequency analysis and periodicity detection in hearing, R. Plomp, G. F. Smoorenburg. Driebergen Symposium, Sijthoff, LeidenThe Netherlands 1969
  • Legouix J.-P. Observation des responses microphoniques cochleaires à des signaux de type impulsionnel. Acustica 1965/6; 16: 159–165
  • Legouix J.-P. Experiments on cochlear analysis for transients in the guinea-pig. Frequency analysis and periodicity detection in hearing, R. Plomp, G. F. Smoorenburg. Driebergen Symposium, Sijthoff, LeidenThe Netherlands 1969
  • Misrahy G. A., Hildreth K. M., Shinaberger E. W., Gannon W. J. Electrical properties of wall of endolymphatic space of the cochlea (guinea pig). Amer. J. Physiol. 1958; 194: 396–402
  • Møller A. R. Studies of the damped oscillatory response of the auditory frequency analyzer. Acta physiol. scand. 1970; 78: 229–314
  • Neubert K., Wüstenfeld E. Nachweis der zellulären Ansprechgebiete im Innenohr. Naturwissenschaften 1955; 42: 350–351
  • Nieder P., Nieder I. Some effects of tonal interactions as seen in the cochlear mlcrophonic. J. Acoust. Soc. Amer. 1968a; 43: 1092–1106
  • Nieder P., Nieder I. Studies of two-tone interaction as seen in the guinea pig microphonic. J. Acoust. Soc. Amer. 1968b; 44: 1409–1422
  • Pestalozza G., Davis H. Electric responses of the guinea pig to high audio frequencies. Amer. J. Physiol. 1956; 185: 595–600
  • Pumphrey R. J., Gold T. Phase memory of the ear: a proof of the resonance hypothesis. Nature 1948; 161: 640
  • Rhode W. S., Geisler C. D. Measurement of the amplitude and phase of vibration of the basilar membrane using the Mössbauer effect. 78th meeting of Acoust. Soc. Amer. 1969
  • Siebert W. M. Models for the dynamic behavior of the cochlear partition. M.I.T., Research Lab. of Electronics, Quat. Progr. Report 1962; 64: 242–258
  • Smith K. R., Wever E. G. The problem of stimulation deafness. III. The functional and histological effects of a high-frequency stimulus. J. Exp. Psych. 1949; 39: 238–241
  • Tasaki I., Fernandez C. Modification of cochlear microphonics and action potentials by KCl solution and by direct currents. J. Neurophysiol. 1952; 15: 497–512
  • Tasaki I., Davis H., Legouix J.-P. The space-time pattern of the cochlear microphonics (guinea pig), as recorded by differential electrodes. J. Acoust. Soc. Amer. 1952; 24: 502–519
  • Tasaki I., Davis H., Eldredge D. H. Exploration of cochlear potentials in guinea pig with a microelectrode. J. Acoust. Soc. Amer. 1954; 26: 765–773
  • Tasaki I. Nerve impulses in individual auditory nerve fibers of guinea pig. J. Neurophysiol. 1954; 17: 97–122
  • Tasaki I. Hearing. Ann. Review Physiol. 1957; 19: 417–437
  • Tasaki I. Afferent impulses in auditory nerve fibers and the mechanism of impulse initiation in the cochlea. Neural mechanisms of the auditory and vestibular systems, G. L. Rasmussen, W. F. Windle. C. C. Thomas, Springfield, Ill. 1960; 40–47
  • Weiss T. F. A model for firing patterns of auditory nerve fibers. M.I.T., Research Lab. of Electronics, Techn. Report 1964; 418
  • Wever E. G., Bray C. W., Lawrence M. The interference of tones in the cochlea. J. Acoust. Soc. Amer. 1940; 12: 268–280
  • Wever E. G. Theory of hearing. Wiley, New York 1949
  • Wever E. G., Vernon I. A., Peterson E. A. The high-frequency sensitivity of the guinea pig ear. Proc. Nat. Acad. Sci. 1963; 49: 319–322
  • Whitfield I. C., Ross H. F. Cochlear-microphonic and summating potentials and the outputs of individual hair-cell generators. J. Acoust. Soc. Amer. 1965; 38: 126–131
  • Woodbury J. A. Measuring phase with transistor flip-flops. Electronics Sept. 1961; 22: 56
  • Zwislocki J. Review of recent mathematical theories of cochlear dynamics. J. Acoust. Soc. Amer. 1953; 25: 743–751

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