Louis Bintz scite author profile

Louis Bintz

4Publications

40Citation Statements Received

0Citation Statements Given

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Affiliations

nLIGHT (United States), Joint Institute for Laboratory Astrophysics

Publications

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A life-sized physical model of the human cochlea with optical holographic readout

Zhou

Bintz²,

Anderson³

et al. 1993

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A life-sized physical model of the human cochlea is demonstrated. The model consists of two fluid-filled chambers separated by a polymer membrane and connected through a small hole that serves the same functional purpose as the helicotrema. The dimensions of the two chambers were made identical to those of scala vestibuli and scala tympani in the real cochlea. The membrane's width and length are the same as the values measured for the biological basilar membranes, and its thickness is chosen to give it appropriate rigidity. A piezoelectric transducer drives the system via an elastic window (acting as the oval window) on one side of the scala vestibuli. The resulting vibration pattern on the basilar membrane is investigated with an optical novelty filter, with detection sensitivity of 0.3 A at 2 kHz with a 1-Hz bandwidth. The overall response of this model is found to be a good extrapolation of Bekesy's low-frequency data. However, the tuning curves of this model are not as sharp as those found by Rhode, Johnstone, and others from the in vivo measurements. Possible implications of these results are discussed.

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Mitigation of thermal lensing effect as a brightness limitation of high-power broad area diode lasers

Bai

Leisher

Zhang

et al. 2011

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Fiber-optic acoustic Fourier transducer for audio sound processing

1992

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We demonstrate a fiber-optic acoustic transducer operating in the audio-frequency regime. The device is made of an array of 120 multimode optical fibers and a photorefractive novelty filter. Each fiber in the array acts as a cantilevered mechanical resonator. The resonant frequencies of the fibers logarithmically sample the acoustic spectrum from approximately 100 Hz to 5 kHz. Laser light is injected into all fibers simultaneously and is reflected from the end of each fiber. An optical novelty filter extracts the acoustic information from the reflected light. The output of the novelty filter is essentially a Fourier transform of the acoustic signal. The background intensity in the transducer output corresponds to a driving amplitude of approximately 50 A. We describe holographic storage of complex sound patterns that use a LiNbO(3) crystal and an acoustic transducer.

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Effects and Detection of Implanted Defects on New Technology Emission Control Systems

Jones¹,

Appleby²,

Bintz³

1982

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Louis Bintz

A life-sized physical model of the human cochlea with optical holographic readout

Mitigation of thermal lensing effect as a brightness limitation of high-power broad area diode lasers

Fiber-optic acoustic Fourier transducer for audio sound processing

Effects and Detection of Implanted Defects on New Technology Emission Control Systems

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