Quarter tone
A quarter tone is a pitch halfway between the usual notes of a chromatic scale or an interval about half as wide as a semitone, which itself is half a whole tone. Quarter tones divide the octave by 50 cents each, and have 24 different pitches.
with 3 normal valves and a quartering on the extension valve
Quarter tone has its roots in the music of the Middle East and more specifically in Persian traditional music. However, the first evidenced proposal of quarter tones, or the quarter-tone scale, was made by 19th-century music theorists Heinrich Richter in 1823 and Mikha'il Mishaqah about 1840. Composers who have written music using this scale include: Pierre Boulez, Julián Carrillo, Mildred Couper, George Enescu, Alberto Ginastera, Gérard Grisey, Alois Hába, Ljubica Marić, Charles Ives, Tristan Murail, Krzysztof Penderecki, Giacinto Scelsi, Ammar El Sherei, Karlheinz Stockhausen, Tui St. George Tucker, Ivan Alexandrovich Wyschnegradsky, and Iannis Xenakis.
Types of quarter tones
Equal-tempered tuning systems
The term quarter tone can refer to a number of different intervals, all very close in size. For example, some 17th- and 18th-century theorists used the term to describe the distance between a sharp and enharmonically distinct flat in mean-tone temperaments. In the quarter-tone scale, also called 24-tone equal temperament, the quarter tone is 50 cents, or a frequency ratio of or approximately 1.0293, and divides the octave into 24 equal steps. In this scale the quarter tone is the smallest step. A semitone is thus made of two steps, and three steps make a three-quarter tone or neutral second, half of a minor third. The 8-TET scale is composed of three-quarter tones. Four steps make a whole tone.Quarter tones and intervals close to them also occur in a number of other equally tempered tuning systems. 22-TET contains an interval of 54.55 cents, slightly wider than a quarter-tone, whereas 53-TET has an interval of 45.28 cents, slightly smaller. 72-TET also has equally tempered quarter-tones, and indeed contains three quarter-tone scales, since 72 is divisible by 24. The smallest interval in 31 equal temperament is half a chromatic semitone, one-third of a diatonic semitone and one-fifth of a whole tone, so it may function as a quarter tone, a fifth-tone or a sixth-tone.
Just intonation tuning systems
In just intonation the quarter tone can be represented by the septimal quarter tone, 36:35, or by the undecimal quarter tone, 33:32, approximately half the semitone of 16:15 or 25:24. The ratio of 36:35 is only 1.23 cents narrower than a 24-TET quarter tone. This just ratio is also the difference between a minor third and septimal minor third.Composer Ben Johnston, to accommodate the just septimal quarter tone, uses a small "7" as an accidental to indicate a note is lowered 49 cents, or an upside down "7" to indicate a note is raised 49 cents, or a ratio of 36:35. Johnston uses an upward and downward arrow to indicate a note is raised or lowered by a ratio of 33:32, or 53 cents. The Maneri-Sims notation system designed for 72-et uses the accidentals and for a quarter tone up and down.
Playing quarter tones on musical instruments
Any tunable musical instrument can be used to perform quarter tones, if two players and two identical instruments, with one tuned a quarter tone higher, are used. As this requires neither a special instrument nor special techniques, much quarter toned music is written for pairs of pianos, violins, harps, etc. The retuning of the instrument, and then returning it to its former pitch, is easy for violins, harder for harps, and slow and relatively expensive for pianos.The following deals with the ability of single instruments to produce quarter tones. In Western instruments, this means "in addition to the usual 12-tone system".
Because many musical instruments manufactured today are designed for the 12-tone scale, not all are usable for playing quarter tones. Sometimes special playing techniques must be used.
Conventional musical instruments that cannot play quarter tones include:
- Most standard or unmodified non-electronic keyboard instruments, such as pianos, organs, and accordions
- Fretted string instruments such as guitars, bass guitars, and ukuleles
- Pitched percussion instruments, if standard techniques are used, and if the instruments are not tunable
- Western wind instruments that use keys or valves
- * Woodwind instruments, such as clarinets, saxophones, flutes, and oboes
- * Valved brass instruments
- Electronic instruments:
- * Synthesizers, using either special keyboard controllers or continuous-pitch controllers such as fingerboard controllers, or when controlled by a sequencer capable of outputting quarter-tone control signals.
- * Theremins and other :Category:Continuous pitch instruments|continuously pitched instruments
- Fretless string instruments, such as the violin family, fretless guitars, fretless electric basses, ouds, and members of the huqin family of instruments.
- String instruments with movable frets
- Specially fretted string instruments.
- Fretted string instruments specially tuned to quarter tones
- Pedal steel guitar
- Wind instruments whose main means of tone-control is a slide, such as trombones, the tromboon invented by P. D. Q. Bach, the slide trumpet and the slide whistle
- Specially keyed woodwind instruments. A quarter tone clarinet was built by Fritz Schüller of Markneukirchen, and a quarter tone mechanism for flutes by Eva Kingma.
- Valved brass instruments with extra, quarter-tone valves, and natural brass instruments that play through the 11th and 13th partials of the harmonic series
- Kazoo
- Pitched percussion instruments, when tuning permits, or using special techniques
Quarter-tone pianos have been built, which consist essentially of two pianos with two keyboards stacked one above the other in a single case, one tuned a quarter tone higher than the other.
Music of the Middle East
Many Persian dastgah and Arabic maqamat contain intervals of three-quarter tone size; a short list of these follows.- Bayati : D E F G A B C D
- :
- Rast :
- :C D E F G A B C
- :C B A G F E D C
- :
- Saba : D E F G A B C D
- :
- Sigah : E F G A B C D E
- :
- ‘Ajam
- Hoseyni
Assyrian/Syriac Church Music Scale:
- Qadmoyo
- Trayono
- Tlithoyo
- Rbiʿoyo
- Hmishoyo
- Shtithoyo
- Shbiʿoyo
- Tminoyo
Quarter-tone scale
\relative c'
The quarter tone scale may be primarily a theoretical construct in Arabic music. The quarter tone gives musicians a "conceptual map" they can use to discuss and compare intervals by number of quarter tones, and this may be one of the reasons it accompanies a renewed interest in theory, with instruction in music theory a mainstream requirement since that period.
Previously, pitches of a mode were chosen from a scale consisting of seventeen tones, developed by Safi al-Din al-Urmawi in the thirteenth century.
Composer Charles Ives chose the chord C–D–F–G–B as good possibility for a "secondary" chord in the quarter-tone scale, akin to the minor chord of traditional tonality. He considered that it may be built upon any degree of the quarter tone scale Here is the secondary "minor" and its "first inversion":
\relative c'
In popular music
The Japanese multi-instrumentalist and experimental musical instrument builder Yuichi Onoue developed a 24-TET quarter tone tuning on his guitar. Several quarter-tone albums have been recorded by Jute Gyte, a one-man avantgarde black metal band from Missouri, USA. Another quartertone metal album was issued by the Swedish band Massive Audio Nerve. Australian psychedelic rock band King Gizzard & the Lizard Wizard's album Flying Microtonal Banana heavily emphasizes quarter-tones. Jazz violinist/violist Mat Maneri, in conjunction with his father Joe Maneri, made a crossover fusion album, Pentagon, that featured experiments in hip hop with quarter tone pianos, as well as electric organ and mellotron textures, along with distorted trombone, in a post-Bitches Brew type of mixed Jazz/rock.Ancient Greek tetrachords
The enharmonic genus of the Greek tetrachord consisted of a ditone or an approximate major third, and a semitone, which was divided into two microtones. Aristoxenos, Didymos and others presented the semitone as being divided into two approximate quarter tone intervals of about the same size, while other ancient Greek theorists described the microtones resulting from dividing the semitone of the enharmonic genus as unequal in size.Interval size in equal temperament
Here are the sizes of some common intervals in a 24-note equally tempered scale, with the interval names proposed by Alois Hába and Ivan Wyschnegradsky :| interval name | size | size | midi | just ratio | just | midi | error |
| octave | 24 | 1200 | 2:1 | 1200.00 | 0.00 | ||
| semidiminished octave | 23 | 1150 | 35:18 | 1151.23 | −1.23 | ||
| supermajor seventh | 23 | 1150 | 27:14 | 1137.04 | +12.96 | ||
| major seventh | 22 | 1100 | 15:8 | 1088.27 | +11.73 | ||
| neutral seventh, major tone | 21 | 1050 | 11:6 | 1049.36 | +0.64 | ||
| neutral seventh, minor tone | 21 | 1050 | 20:11 | 1035.00 | +15.00 | ||
| large just minor seventh | 20 | 1000 | 9:5 | 1017.60 | −17.60 | ||
| small just minor seventh | 20 | 1000 | 16:9 | 996.09 | +3.91 | ||
| supermajor sixth/subminor seventh | 19 | 950 | 7:4 | 968.83 | −18.83 | ||
| major sixth | 18 | 900 | 5:3 | 884.36 | +15.64 | ||
| neutral sixth | 17 | 850 | 18:11 | 852.59 | −2.59 | ||
| minor sixth | 16 | 800 | 8:5 | 813.69 | −13.69 | ||
| subminor sixth | 15 | 750 | 14:9 | 764.92 | −14.92 | ||
| perfect fifth | 14 | 700 | 3:2 | 701.96 | −1.96 | ||
| minor fifth | 13 | 650 | 16:11 | 648.68 | +1.32 | ||
| lesser septimal tritone | 12 | 600 | 7:5 | 582.51 | +17.49 | ||
| major fourth | 11 | 550 | 11:8 | 551.32 | −1.32 | ||
| perfect fourth | 10 | 500 | 4:3 | 498.04 | +1.96 | ||
| tridecimal major third | 9 | 450 | 13:10 | 454.21 | −4.21 | ||
| septimal major third | 9 | 450 | 9:7 | 435.08 | +14.92 | ||
| major third | 8 | 400 | 5:4 | 386.31 | +13.69 | ||
| undecimal neutral third | 7 | 350 | 11:9 | 347.41 | +2.59 | ||
| minor third | 6 | 300 | 6:5 | 315.64 | −15.64 | ||
| septimal minor third | 5 | 250 | 7:6 | 266.87 | −16.87 | ||
| tridecimal five-quarter tone | 5 | 250 | 15:13 | 247.74 | +2.26 | ||
| septimal whole tone | 5 | 250 | 8:7 | 231.17 | +18.83 | ||
| major second, major tone | 4 | 200 | 9:8 | 203.91 | −3.91 | ||
| major second, minor tone | 4 | 200 | 10:9 | 182.40 | +17.60 | ||
| neutral second, greater undecimal | 3 | 150 | 11:10 | 165.00 | −15.00 | ||
| neutral second, lesser undecimal | 3 | 150 | 12:11 | 150.64 | −0.64 | ||
| 15:14 semitone | 2 | 100 | 15:14 | 119.44 | −19.44 | ||
| diatonic semitone, just | 2 | 100 | 16:15 | 111.73 | −11.73 | ||
| 21:20 semitone | 2 | 100 | 21:20 | 84.47 | +15.53 | ||
| 28:27 semitone | 1 | 50 | 28:27 | 62.96 | −12.96 | ||
| 33:32 semitone | 1 | 50 | 33:32 | 53.27 | −3.27 | ||
| unison | 0 | 0 | 1:1 | 0.00 | 0.00 |
Moving from 12-TET to 24-TET allows the better approximation of a number of intervals. Intervals matched particularly closely include the neutral second, neutral third, and ratio, or the 11th harmonic. The septimal minor third and septimal major third are approximated rather poorly; the and ratios, involving the 13th harmonic, are matched very closely. Overall, 24-TET can be viewed as matching the 11th and 13th harmonics more closely than the 7th.