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dc.contributor.authorOspeck, Marken_US
dc.contributor.authorEguíluz, Víctor M.en_US
dc.contributor.authorMagnasco, Marcelo O.en_US
dc.identifier.citationComments on Theoretical Biology 6: 461-482 (2001)en_US
dc.description22 pages, 8 figures.-- Pre-print archive.-
dc.description.abstractThe Hopf bifurcation is the dynamical instability which occurs in a feedback amplifier as the positive feedback is increased to the point where the system starts to oscillate spontaneously. The howl heard in a public address system when the presenter moves so the microphone gets too close to the loudspeaker is an example of increased positive feedback leading to oscillatory behaviour through a Hopf bifurcation. Hair cells are the sensory cells responsible for hearing and balance; they contain mechanosensitive transducer channels that convert mechanical vibration into an oscillation of their membrane potential. In many hair cells the membrane potential sinusoidally oscillates at small amplitude without input; their input-output transfer function has a large gain for small input and a reduced gain for larger inputs. These and other features are easily explained if hair cells are poised at a Hopf bifurcation. An amplifier poised at the Hopf bifurcation will have a compressively-nonlinear transfer function and also infinitely sharp tuning for vanishingly small input. The cube-root shape of its transfer function provides for an extraordinarily large gain for a small input signal at the natural frequency and a reduced gain for larger inputs. Moreover, any biosensor for detecting periodic signals of any sort would enjoy these great advantages by employing this commonly occurring instability.en_US
dc.format.extent2373 bytes-
dc.format.extent1945900 bytes-
dc.publisherTaylor & Francis-
dc.subjectDynamic instability-
dc.subjectBiological amplifier-
dc.titleHopf bifurcations and hair cellsen_US
dc.description.peerreviewedPeer revieweden_US
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