1. H. Bouasse. (1929). Instruments à vent, 2 vols. (Paris, Librairie Delagrave), vol. 1, pp. 5-29.
2. Bouasse. Instruments d vent, vol. 1, pp. 68-79; Hermann L. F. Helmholtz. (1885). Sensations of Tone, trans. A. J. Ellis (reprint, New York, Peter Smith, 1948), p. 390.
3. Helmholtz, Sensations of Tone, pp. 388-394.
4. Arthur H. Benade. (1960). Horns, Strings and Harmony, (Garden City, NY, Doubleday), pp. 142-233.
5. A. H. Benade. (1973). "Physics of Brasses," Scientific American, July, pp. 24-35.
6. Edward Eisner. (1967). "The Complete Solutions of the "Webster" Horn Equation," J. Acoust. Soc. Am. 41, 1126-1146. Cet article est une excellente source d'information technique et historique sur la théorie générale des pavillons du point de vue d'un acousticien.
7. Eric Halfpenny. (1962). "William Bull and the English Trumpet," Galpin Society Journal XV, 18; Eric Halfpenny. (1963). "Two Oxford Trumpets," Galpin Society Journal XVI, 49; Joseph Wheeler. (1965). "Further Notes on the Classic Trumpet," Galpin Society Journal XVIII, 14.
8. H. Bouasse. (1929). Tuyaux et résonateurs (Paris, Librairie Delagrave), pp. 383-384.
9. E. G. Richardson. (1929). The Acoustics of Orchestral Instruments (London, Arnold), p. 75.
10. E. L. Kent. (1961). U. S. Patent 2,987,950, filed April 1958, granted June 1961.
11. Frederick J. Young. (1960). "The Natural Frequencies of Musical Horns," Acustica 10, 91-97; "Impedance of Tapered Structures," J. Acoust. Soc. Am. 33, 1206-1210; Frederick J. Young. (1966). "Impedance of Tapered Structures," J. Acoust. Soc. Am. 39, 841-846.
12. W. T. Cardwell. (1970). U. S. Patent 3,507,181, filed Oct. 1967, granted April 1970.
13. Arthur H. Benade and Erik V. Jansson. (1973). "On Plane and Spherical Waves in Horns with Nonuniform Flare: 1. Theory of Radiation, Resonance Frequencies, and Mode Conversion; 11. Prediction and Measurements of Resonance Frequencies and Radiation Losses," Speech Transmission Laboratory Technical Report (March 15, 1973), Royal Institute of Technology (KTH), Stockholm.
14. Klaus Wogram. (1972). "Ein Beitrag zur Ermittlung der Stimmung von Blechblasinstrument." (Dr.-Ing. diss., Technischen Universitat Carolo-Wilhelmina zu Braunschweig).
15. A. H. Benade. (1966). "Relation of Air-Column Resonances to Sound Spectra Produced by Wind Instruments," J. Acoust. Soc. Am. 40, 247-249.
16. A. H. Benade and D. J. Gans. (1968). "Sound Production in Wind Instruments," Annals of the New York Academy of Science 155, 247-263.
17. Walter E. Worman. (1971). "Self-Sustained Nonlinear Oscillations in Clarinet-Like Systems," (Ph.D. diss., Case Western Reserve University, Cleveland, Ohio).
18. Robert W. Pyle, Jr. (1969). "Mathematical Model of the Brass Player's Embouchure," J. Acoust. Soc. Am. 45, 296. C'est un des six papiers présentés comme contribution à un symposium sur l'acoustique des cuivres.
19. Josef Merhaut. (1969). "Method of Measuring the Acoustical Impedance," J. Acoust. Soc. Am. 45, 331.
20. John W. Coltman. (1968). "The Sounding Mechanism of the Flute," J. Acoust. Soc. Am 44, 983-992.
21. Philip Bate. (1966). The Trumpet and Trombone (London, Benn), pp. 121-122.
22. Werner Menke. (1934). History of the Trumpet of Bach and Handel (London, Reeves).
23. Victor Mahillon. (1874). Elements d'acoustique musicale et instrumentale (Brussels, Mahillon), p. 94.
24. Mahillon, Elements d'acoustique, p. 94.
L'acoustique de la trompette
Notions préliminaires d'acoustique
La "trompette d'eau", un analogue à ce qui
se passe à l'intérieur d'une trompette
La fonction des lèvres du musicien
La fonction du tuyau et du pavillon - A l'intérieur
de la colonne d'air
La coopération requise pour un résultat
musical
La trompette baroque
Le spectre interne de la trompette moderne
Le spectre interne de la trompette baroque
Relation entre le spectre interne et le timbre perçu
La trompette de Menke
Le problème d'une attaque propre
Mahillon revisité
Conclusion
Notes bibliographiques