Книги онлайн и без регистрации » Домашняя » Мир под напряжением. История электричества: опасности для здоровья, о которых мы ничего не знали - Артур Фёрстенберг

Мир под напряжением. История электричества: опасности для здоровья, о которых мы ничего не знали - Артур Фёрстенберг

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–. 1976. “The Peripheral Hearing Mechanism: A Biochemical and Biological Approach.” Annals of Otology, Rhinology and Laryngology 85: 38–42.

–. 1980. “Frequency Analysis in the Cochlea and the Traveling Wave of von Békésy.” Physiological Chemistry and Physics 12: 521-26.

–. 1981. “Energy Transduction in the Cochlea.” Hearing Research 5: 3°7-15.

Naftalin, Lionel, M. Spence Harrison and A. Stephens. 1964. “The Character of the Tectorial Membrane.” Journal of Laryngology and Otology 78: 1°61-78.

Naftalin, Lionel and G. P. Jones. 1969. “Propagation of Acoustic Waves in Gels with Special Reference to the Theory of Hearing.” Life Sciences 8 (part 1): 765-68.

Naftalin, Lionel and Michael Mattey. 1995. “The Transmission of Acoustic Energy from Air to the Receptor and Transducer in the Cochlea.” Paper presented at conference on “Non-linear Coherent Structures in Physics and Biology,” Heriot-Watt University, Edinburgh, July 1995.

Naftalin, Lionel, Michael Mattey, and Eve M. Lutz. 2009. “The Transmission of Acoustic Energy from Air to the Receptor and Transducer Structures within the Cochlea with Special Reference to the Tectorial Membrane.” Manuscript submitted to Hearing Research.

Naftalin, Lionel and A. Stephens. 1966. “A Protein Electret Microphone.” Life Sciences 5(3): 223-26.

Neely, S. T. 1989. “A Model for Bidirectional Transduction in Outer Hair Cells.” In: J. P. Wilson and D. T. Kemp, eds., Cochlear Mechanisms (New York: Plenum), pp. 75–82.

Nowotny, Manuela and Anthony W. Gummer. 2006. “Nanomechanics of the Subtec– torial Space Caused by Electromechanics of Cochlear Outer Hair Cells.” Proceedings of the National Academy of Sciences 1°3(7): 2120-25.

Offutt, George C. 1968. “Auditory Response in the Goldfish.” Journal of Auditory Research 8: 391-400.

–. 1970. “A Proposed Mechanism for the Perception of Acoustic Stimuli near Threshold.” Journal of Auditory Research 10: 226-28.

–. 1974. “Structures for the Detection of Acoustic Stimuli in the Atlantic Codfish, Gadus morhua.” Journal of the Acoustical Society of America 56(2): 665-71.

–. 1984. The Electromodel of the Auditory System. Shepherdstown, WV: GoLo Press.

–. 1986. “Wever and Lawrence Revisited: Effects of Nulling Basilar Membrane Movement on Concomitant Whole-Nerve Action Potential.” Journal of Auditory Research 26: 43–54.

–. 1999. “New Electromodel Hearing Aid.” Resonance: Newsletter of the Bioelectro-magnetics SIG 34: 17–18.

–. 2000. “What is the Basis of Human Hearing?” Frontier Perspectives 9(2): 33–36.

–. 2002. “Energy Flow and Basilar Membrane Vibrations (Sound in the Cochlea’s Fluids).” Presented at 25th Midwinter Research Meeting of the Association for Research in Otolaryngology, January.

O’Leary, Dennis P. 1970. “An Electrokinetic Model of Transduction in the Semicircular Canal.” Biophysical Journal 10: 859-75.

Özen, §ükrü 2008. “Low-frequency Transient Electric and Magnetic Fields Coupling to Child Body.” Radiation Protection Dosimetry 128(1): 62–67.

Parks, Susan E., Darlene R. Ketten, Jennifer T. O’Malley, and Julie Arruda. 2007. “Anatomical Predictions of Hearing in the North Atlantic Right Whale.” Anatomical Record 290: 734-44.

Pohlman, Augustus G. 1922. “Structural Factors Contributing to Acoustic Insulation of the End Organ.” The Anatomical Record 23:32. Abstract.

–. 1930. “Correlations Between the Acuity for Hearing Air and Bone Transmitted Sounds in Rinne Negative and Rinne Positive Cases.” Annals of Otology, Rhinol– ogy and Laryngology 39(4): 927-60.

–. 1933. “A Reconsideration of the Mechanics of the Auditory Apparatus.” Journal of Laryngology and Otology 48: 156-95.

–. 1936. “The Present Status of the Mechanics of Sound Conduction in Its Relation to the Possible Correction of Conduction Deafness.” Journal of the Acoustical Society of America 8(2): 112-17.

–. 1938. “Objections to the Accepted Interpretation of Cochlear Mechanics.” Acta Oto-Laryngologica 26: 162-69.

–. 1942. “Further Objections to the Accepted Interpretations of Cochlear Mechanics.” Archives of Otolaryngology 35: 613-22.

Rabbit, Richard D., Harold E. Ayliffe, Douglas Christensen, Kranti Pamarthy, Carl Durney, Sarah Clifford, and William E. Brownell. 2005. “Evidence of Piezoelectric Resonance in Isolated Outer Hair Cells.” Biophysical Journal 88: 2257-65.

Raphael, Robert M., Aleksander S. Popel, and William E. Brownell. 2000. “A Membrane Bending Model of Outer Hair Cell Electromotility.” Biophysical Journal 78: 2844-62.

Richter, Claus-Peter, Gulam Emadi, Geoffrey Getnick, Alicia Quesnel, and Peter Dallos. 2007. “Tectorial Membrane Stiffness Gradients.” Biophysical Journal 93: 2265-76.

Ross, Muriel D. 1974. “The Tectorial Membrane of the Rat.” American Journal of Anatomy 139: 449-82.

Russell, Ian J., Alan R. Cody, and Guy P. Richardson. 1986. “The Responses of Inner and Outer Hair Cells in the Basal Turn of the Guinea-Pig Cochlea and in the Mouse Cochlea Grown In vitro.” Hearing Research 22: 199–216.

Russell, Ian J. and Peter M. Sellick. 1978. “Intracellular Studies of Hair Cells in the Mammalian Cochlea.” Journal of Physiology 284: 261-90.

Santos-Sacchi, Joseph and James P. Dilger. 1988. “Whole Cell Currents and Mechanical Responses of Isolated Outer Hair Cells.” Hearing Research 35: 143-50.

Spector, William S., ed. 1956. Handbook of Biological Data. Philadelphia: W. B. Saunders. Page 323 on cochlear dimensions across species.

Strelioff, David, Åke Flock, and Karl E. Minser. 1985. “Role of Inner and Outer Hair Cells in Mechanical Frequency Selectivity of the Cochlea.” Hearing Research 18: 169-75.

Tasaki, Ichiji and César Fernández. 1952. “Modification of Cochlear Microphonics and Action Potentials by KCl Solution and by Direct Currents.” Journal of Neurophysiology 15: 497–512.

Teas, Donald C., Teruzo Konishi, and Joel S. Wernick. 1970. “Effects of Electrical Current Applied to Cochlear Partition on Discharges in Individual Auditory-Nerve Fibers. II. Interaction of Electrical Polarization and Acoustic Stimulation.” Journal of the Acoustical Society of America 47(6): 1527-37.

Ulfendahl, Mats and Åke Flock. 1998. “Outer Hair Cells Provide Active Tuning in the Organ of Corti.” Physiology 13: 1°7-11.

Weitzel, Erik K., Ron Tasker, and William E. Brownell. 2003. “Outer Hair Cell Piezoelectricity: Frequency Response Enhancement and Resonance Behavior.” Journal of the Acoustical Society of America 114(3): 1462-66.

Wever, Ernest Glen. 1966. “Electrical Potentials of the Cochlea.” Physiological Reviews 46(1): 1°2-27.

Wever, Ernest Glen and Charles William Bray. 1930. “Action Currents in the Auditory Nerve in Response to Acoustical Stimulation.” Proceedings of the National Academy of Sciences 16(5): 344-50.

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