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CELLO MULTIPHONICS: TECHNICAL AND MUSICAL PARAMETERS

Published online by Cambridge University Press:  19 December 2019

Abstract

This article presents selected results from a research project on cello multiphonics at the Hochschule für Musik Basel within which I am producing updated fingering charts in a smartphone application and affiliated online repository. The article details work that has informed this resource and illustrates results that reveal critical questions and point to future areas of interest. I begin by introducing cello multiphonics and contextualising my previous findings, then discuss pitch content, ‘chain’ multiphonics and the balance and intonation of multiphonic components.

Type
RESEARCH ARTICLE
Copyright
Copyright © Cambridge University Press 2019

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References

1 I notate multiphonics in square brackets, with the main harmonic components within the brackets and the string number, if relevant, in Roman numerals before the brackets. In Cello Map, the harmonics are notated in the order of the position of their nodes on the string. Throughout this article, however, to avoid confusion I adopted the more common, chronological notation.

2 Ellen Fallowfield, ‘Multiphonics’, Cello Map, 2013, www.cellomap.com/index/the-string/multiphonics-and-other-multiple-sounds.html. Videos of cello multiphonics can also be viewed here.

3 Ellen Fallowfield, ‘Fingering Charts’, Cello Map, 2013, www.cellomap.com/index/the-string/multiphonics-and-other-multiple-sounds/fingeringcharts.html.

4 Walter, Caspar Johannes, ‘Mehrklänge auf dem Klavier: vom Phänomen zur mikrotonalen Theorie und Praxis’ in Mikrotonalität – Praxis und Utopie, ed. Pätzold, Cordula and Walter, Caspar Johannes (Mainz: Schott, 2014), pp. 1340Google Scholar.

5 Schneider, John, The Contemporary Guitar (Berkeley: University of California Press, 1985)Google Scholar; Guettler, Knut and Thelin, Håkon, ‘Bowed-String Multiphonics Analyzed By Use of Impulse Response and the Poisson Summation Formula’, Journal of the Acoustical Society of America, Vol. 131 (2012) pp. 766–72CrossRefGoogle ScholarPubMed; Fallowfield, ‘Multiphonics’, Cello Map; Walter, ‘Mehrklänge auf dem Klavier; Josel, Seth F and Tsao, Ming, The Techniques of Guitar Playing (Kassel: Bärenreiter, 2014)Google Scholar; Maurer, Barbara, Saitenweise: Neue Klangphänomene auf Streichinstrumenten und ihre Notation (Wiesbaden: Breitkopf und Härtel, 2014)Google Scholar.

6 Guettler and Thelin, ‘Bowed-String Multiphonics Analyzed’, p. 766.

7 Guettler and Thelin, ‘Bowed-String Multiphonics Analyzed’, p. 770.

8 Links to the audio examples can be found in the appendix.

9 Guettler and Thelin, ‘Bowed-String Multiphonics Analyzed’, p. 771.

10 The 8th node of the 21st partial (8/21) vs. the 7th node of the 18th partial (7/18) on a string length of approx. 69 cm.

11 See appendix for measurements of the monochord.

12 [3, 4, 11] is found slightly flatter than the tritone and [3, 7, 10] slightly sharper.

13 Notated as [1, 3, 4, 7] in Maurer, Saitenweise.

14 Here the branch with fewer mutations occurred more often, but it seems to be by no means clear that this will always be the case.

15 Guettler and Thelin, ‘Bowed-String Multiphonics Analyzed’, pp. 771–2.

16 Rita Torres, ‘A New Chemistry of Sound: The Technique of Multiphonics as a Compositional Element for Guitar and Amplified Guitar’ (PhD Thesis, Portuguese Catholic University, Porto).

17 That upper limit does not seem to increase in proportion to string length suggests that psychoacoustical effects are at play.

18 Guettler and Thelin, ‘Bowed-String Multiphonics Analyzed’, p. 770.

19 Fletcher, Neville H. and Rossing, Thomas D., The Physics of Musical Instruments, second edition (New York: Springer), p. 65Google Scholar.

20 Marc Dresser, ‘Double Bass Multiphonics’, The Strad October 2009, p. 73.

21 Guettler, Knut, ‘On Playing “Harmonics” (Flageolet Tones)’, Catgut Acoustical Society Journal 4/5 (2002), pp. 79Google Scholar.

22 Josel and Tsao, The Techniques of Guitar Playing, pp. 121–2.

23 Benade, Arthur H., Fundamentals of Musical Acoustics, second edition (New York: Dover, 1990), p. 277Google Scholar.

24 Arash Yazdani, Study of Multiphonics on the Strings of Piano (PhD Thesis, Estonian Academy of Music and Theater, Talinn), pp. 38–41.

25 It might be possible to choose a plectrum to ‘promote’ isolation of harmonics, i.e., a thick/soft plectrum for low harmonics and a thinner, denser plectrum for higher harmonics.

26 Johan Olsson, Johan Svensson and Martin Rane Bauck, www.pianoharmonics.com/harmonics-overview/in-front-of-dampers/

27 Josel and Tsao, The Techniques of Guitar Playing, pp. 111–12.

28 Guettler, KnutBows, Strings and Bowing’, in The Science of String Instruments, ed. Rossing, Thomas D. (New York: Springer, 2010), p. 291Google Scholar.

29 Guettler, ‘On Playing “Harmonics” (Flageolet Tones).

30 Daniel A. Russel, ‘Inharmonicity due to Stiffness for Guitar Strings’, www.acs.psu.edu/drussell/Demos/Stiffness-Inharmonicity/Stiffness-B.html, 2013.

31 Hanson, Roger J., Halgedahl, Frederick W. and Guettler, Knut, ‘Anomalous Low-Pitched Tones from a Bowed Violin String’, The Journal of the Acoustical Society of America 97 (1995), p. 3270CrossRefGoogle Scholar.

32 Schoonderwaldt, Erwin, ‘The Violinist's Sound Palette: Spectral Centroid, Pitch Flattening and Anomalous Low Frequencies’, Acta Acustica united with Acustica 95/5 (2009), pp. 901–14CrossRefGoogle Scholar.

33 Guettler, ‘On Playing “Harmonics” (Flageolet Tones), p. 8.

34 For further reading, see Moore, Brian C.J.Thresholds for the Detection of Inharmonicity in Complex TonesThe Journal of the Acoustical Society of America 77 (1985) pp. 1853–60CrossRefGoogle ScholarPubMed.

35 Sethares, William A., Tuning, Timbre, Spectrum, Scale (New York: Springer 2004), pp. 7781Google Scholar.

36 Knut Guettler, ‘String Stiffness’, 2013, http://knutsacoustics.com/files/String-stiffness.pdf.