Nathan C. Lin scite author profile

The usual technique for measuring vibration within the cochlear partition is heterodyne interferometry. Recently, spectral domain phase microscopy (SDPM) was introduced and offers improvements over standard heterodyne interferometry. In particular, it has a penetration depth of several mm due to working in the infrared range, has narrow and steep optical sectioning due to using a wideband light source, and is able to measure from several cochlear layers simultaneously. However, SDPM is susceptible to systematic error due to "phase leakage," in which the signal from one layer competes with the signal from other layers. Here, phase leakage is explored in vibration measurements in the cochlea and a model structure. The similarity between phase leakage and signal competition in heterodyne interferometry is demonstrated both experimentally and theoretically. Due to phase leakage, erroneous vibration amplitudes can be reported in regions of low reflectivity that are near structures of high reflectivity. When vibration amplitudes are greater than ∼0.1 of the light source wavelength, phase leakage can cause reported vibration waveforms to be distorted. To aid in the screening of phase leakage in experimental results, the error is plotted and discussed as a function of the important parameters of signal strength and vibration amplitude.

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First Demonstration of heterogenous Complementary FETs utilizing Low-Temperature (200 °C) Hetero-Layers Bonding Technique (LT-HBT)

Tong

Chang

Agarwal

et al. 2020

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Adapting a commercial spectral domain optical coherence tomography system for time-locked displacement and physiological measurements

Lin¹,

Strimbu²,

Hendon³

et al. 2018

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Scanning optical coherence tomography probe for in vivo imaging and displacement measurements in the cochlea

Lin

Fallah

Strimbu

et al. 2019

Biomed. Opt. Express

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Nathan C. Lin

First Demonstration of CMOS Inverter and 6T-SRAM Based on GAA CFETs Structure for 3D-IC Applications

Signal competition in optical coherence tomography and its relevance for cochlear vibrometry

First Demonstration of heterogenous Complementary FETs utilizing Low-Temperature (200 °C) Hetero-Layers Bonding Technique (LT-HBT)

Adapting a commercial spectral domain optical coherence tomography system for time-locked displacement and physiological measurements

Scanning optical coherence tomography probe for in vivo imaging and displacement measurements in the cochlea

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