Читаем Мир под напряжением. История электричества: опасности для здоровья, о которых мы ничего не знали полностью

Mild, Kjell Hansson and Jonna Wilen. 2009. “Occupational Exposure in Wireless Communication.” In: James C. Lin, ed., Advances in Electromagnetic Fields in Living Systems, vol. 5, Health Effects of Cell Phone Radiation (New York: Springer), pp. 199–219.

Tuor, Markus, Sven Ebert, Jürgen Schuderer, and Niels Kuster. 2005. “Assessment of ELF Exposure from GSM Handsets and Development of an Optimized RF/ ELF Exposure Setup for Studies of Human Volunteers.” BAG Reg. No. 2.23.o2.– 18/o2.oo1778. Zürich: Foundation for Research on Information Technologies in Society.

Электронные устройства

Stetzer, David A. April 2, 2000. Testimony before the Michigan Public Service Commission.

Zyren, Jim. May 2°10. “HomePlug Green PHY Overview.” Atheros Technical Paper.

Электрическая модель уха

Allen, Jont B. 198O. “Cochlear Micromechanics – A Physical Model of Transduction.” Journal of the Acoustical Society of America 68(6): 1660-70.

Art, Jonathan J. and Robert Fettiplace. 1987. “Variation of Membrane Properties in Hair Cells Isolated from the Turtle Cochlea.” Journal of Physiology 385: 2°7-42.

Ashmore, Jonathan F. 1987. “A Fast Motile Response in Guinea-Pig Outer Hair Cells: The Cellular Basis of the Cochlear Amplifier.” Journal of Physiology 388: 323-47.

–. 2008. “Cochlear Outer Hair Cell Motililty.” Physiological Reviews 88: 173-210.

Bell, Andrew. 2000. The Underwater Piano: Revival of the Resonance Theory of Hearing. Canberra: Australian National University.

–. 2004. “Resonance Theories of Hearing – A History and a Fresh Approach.” Acoustics Australia 32(3): 95-100.

–. 2005. “The Underwater Piano: A Resonance Theory of Cochlear Mechanics.” Doctoral thesis, The Australian National University, Canberra.

–. 2006. “Sensors, Motors, and Tuning in the Cochlea: Interacting Cells Could Form a Surface Acoustic Wave Resonator.” Bioinspiration and Biomimetics 1: 96-1°1.

–. 2007. “Detection with Deflection? A Hypothesis for Direct Sensing of Sound Pressure by Hair Cells.” Journal of Biosciences 32(2): 385-4°4.

–. 2°10. “The Cochlea as a Graded Bank of Independent, Simultaneously Excited Resonators: Calculated Properties of an Apparent ‘Travelling Wave.’” Proceedings of the 20th International Congress on Acoustics, ICA 2010, 23–27 August 2010, Sydney, Australia, pp. 1–9.

–. 2°11. “How Do Middle Ear Muscles Protect the Cochlea? Reconsideration of the Intralabyrinthine Pressure Theory.” Journal of Hearing Science 1(2): 9-23.

–. 2°12. “A Resonance Approach to Cochlear Mechanics.” PLoS ONE 7(11): e47918.

Bell, DeLamar T., Jr. and Robert C. M. Li. 1976. “Surface-Acoustic-Wave Resonators.” Proceedings of the IEEE 64(5): 711-21.

Braun, Martin. 1994. “Tuned Hair Cells for Hearing, But Tuned Basilar Membrane for Overload Protection: Evidence from Dolphins, Bats, and Desert Rodents.” Hearing Research 78: 98-114.

Breneman, Kathryn D., William Brownell, and Richard D. Rabbit. 2009. “Hair Cell Bundles: Flexoelectric Motors of the Inner Ear.” PLoS ONE 4(4): e52°1.

Breneman, Kathryn D. and Richard D. Rabbit. 2009. “Piezo– and Flexoelectric Membrane Materials Underlie Fast Biological Motors in the Ear.” Materials Research Society Symposia Proceedings 1186E: 1186-JJo6-o4.

Brownell, William E. 2006. “The Piezoeletric Outer Hair Cell.” In: Ruth Anne Eatock, Richard R. Fay, and Arthur N. Popper, eds., Vertebrate Hair Cells (New York: Springer), pp. 313-47.

Brownell, William E., Charles R. Bader, Daniel Bertrand, and Yves de Ribaupierre. 1985. “Evoked Mechanical Responses of Isolated Cochlear Outer Hair Cells.” Science 227: 194-96.

Canlon, Barbara, Lou Brundin, and Åke Flock. 1988. “Acoustic Stimulation Causes Tonotopic Alterations in the Length of Isolated Outer Hair Cells from Guinea Pig Hearing Organ.” Proceedings of the National Academy of Sciences 85(18): 7°33-35.

Crawford, Andrew C. and Robert Fettiplace. 1981. “An Electrical Tuning Mechanism in Turtle Cochlear Hair Cells.” Journal of Physiology 312: 377–412.

de Vries, Hessel. 1948a. “Brownian Movement and Hearing.” Physica 14(1): 48-60.

–. 1948b. “Die Reizschwelle der Sinnesorgane als physikalisches Problem.” Experientia 4(6): 2°5-13.

Degens, Egon T., Werner G. Deuser, and Richard L. Haedrich. 1969. “Molecular Structure and Composition of Fish Otoliths.” International Journal on Life in Oceans and Coastal Waters 2(2): 1°5-13.

Dimbylow, Peter J. 1988. “The Calculation of Induced Currents and Absorbed Power in a Realistic, Heterogeneous Model of the Lower Leg for Applied Electric Fields from 60 Hz to 30 MHz.” Physics in Medicine and Biology 33(12): 1453-68.

Dong, Xiao-xia, Mark Ospeck, and Kuni H. Iwasa. 2002. “Piezoelectrical Reciprocal Relationship of the Membrane Motor in the Cochlear Outer Hair Cell.” Biophysical Journal 82(3): 1254-59.

Fettiplace, Robert and Paul A. Fuchs. 1999. “Mechanisms of Hair Cell Tuning.” Annual Review of Physiology 61: 8°9-34.