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Abstract
How important is the player’s vocal tract in clarinet and saxophone performance? Acoustician’s opinions have ranged from “negligible” [Backus (1985), JASA 78, 17] to “vocal tract resonance frequencies must match the frequency of the required notes” [Clinch et al. (1982), Acustica 50, 280]. Musicians’ opinions are similarly varied.
To understand how the tract-reed-bore system interacts, acoustical measurements of performers’ vocal tracts during playing were made using measurement heads mounted in the mouthpieces of a clarinet and a tenor saxophone. Acoustic impedance spectra of the tenor and soprano saxophone bores were also measured for all standard fingerings, and some others.
For fingerings high in the tenor saxophone’s second register, bore impedance peaks downstream decrease with increasing pitch. Above the first 2.7 octaves, peak values fall below 30 MPa.s.m-3 and this ends the standard range available to amateurs. To play the higher altissimo notes, experts produced strong vocal tract resonances upstream with impedances 10-40 MPa.s.m-3 tuned to sound the desired note. While expert saxophonists adjust their vocal tract thus for altissimo playing, inexperienced players do not, and consequently cannot produce these notes.
The smoothly rising clarinet glissando solo opening Gershwin’s Rhapsody in Blue was also investigated. Partially uncovering an open finger-hole smoothly raises clarinet resonances in the lower register, allowing continuous increases in playing pitch. When pitch bending in the second (clarino) register, experienced players produced strong tract resonances with impedances up to 60 MPa.s.m-3, comparable in magnitude with those of the clarinet bore (40-50 MPa.s.m-3). Thus during the glissando, sounding pitch is controlled by smoothly varying a strong resonance in the player’s vocal tract. The phase of the reed impedance is shown to make downwards pitch bending easier than upwards. Similar vocal tract adjustments were observed on the clarinet and saxophone for other advanced techniques such as bugling and multiphonic selection.
During normal playing, although experienced players produced vocal tract impedance peaks with only moderate magnitude, these peaks were adjusted systematically to frequencies about 150 Hz higher than the sounding pitch (determined by strong bore resonances). This strategy may avoid the effects of small unwanted tract-bore interactions on sounding pitch.