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Phonation threshold pressure: A missing link in glottal aerodynamics.

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Phonation threshold pressure has previously been defined as the minimum lung pressure required to initiate phonation. By modeling the dependence of this pressure on fundamental frequency, it is shown that relatively simple aerodynamic relations for time-varying flow in the glottis are obtained. Lung pressure and peak glottal flow are nearly linearly related, but not proportional. For this reason, typical power-law relations that have previously been proposed do not hold. Glottal impedance for time-varying flow must be defined differentially rather than as a simple ratio between pressure and flow. It is shown that the peak flow, the peak flow derivative, the open quotient, and the speed quotient of inverse-filtered glottal flow waveforms all depend explicitly on phonation threshold pressure. Data from singers are compared with those from nonsingers. The primary difference is that singers obtain two to three times greater peak flow for a given lung pressure, suggesting that they adjust their glottal or vocal tract impedance for optimal flow transfer between the source and the resonator.
Title: Phonation threshold pressure: A missing link in glottal aerodynamics.
Description:
Phonation threshold pressure has previously been defined as the minimum lung pressure required to initiate phonation.
By modeling the dependence of this pressure on fundamental frequency, it is shown that relatively simple aerodynamic relations for time-varying flow in the glottis are obtained.
Lung pressure and peak glottal flow are nearly linearly related, but not proportional.
For this reason, typical power-law relations that have previously been proposed do not hold.
Glottal impedance for time-varying flow must be defined differentially rather than as a simple ratio between pressure and flow.
It is shown that the peak flow, the peak flow derivative, the open quotient, and the speed quotient of inverse-filtered glottal flow waveforms all depend explicitly on phonation threshold pressure.
Data from singers are compared with those from nonsingers.
The primary difference is that singers obtain two to three times greater peak flow for a given lung pressure, suggesting that they adjust their glottal or vocal tract impedance for optimal flow transfer between the source and the resonator.

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