Tag: Night Songs

  • MapLab 5. Spin a Solo

    Unaccompanied instrumental solos go back at least to the 18th Century, such as Bach’s violin partitas and cello suites. In the late 19th century, Debussy’s Syrinx for solo flute met the challenge of making a piece with just one wind instrument, not capable of the double-stops that complicate the rich textures of Bach’s string writing.

    1. Choose a model

    Syrinx launched a whole genre of unaccompanied flute solos, with Density 21.5 (1927) by Edgard Varèse and Sequenza (1958) by Luciano Berio leading the way to experimentation with virtually every wind instrument. My Night Songs (1969) for solo trombone is very much within the tradition of this genre. As a trombonist and undergraduate composition student, I used my intimate knowledge of the instrument to select gestures and techniques to experiment with compositionally.

    2. Choose an instrument

    I also love the viola, so I readily agreed to write an unaccompanied solo for each member of the Pleasant Street Players, including violist Ames Asbell.

    3. Sketch idiomatic gestures

    Before I Sleep is inspired by a famous, beautiful Robert Frost poem, “Stopping By Woods.” Its snowy scene tempted me to quote a Mahler’s Symphony No. 4 (1900) that starts with sleigh bells and flutes doing something like the A gesture. (Sul ponticello is a special string technique to brighten tone by moving the bow closer than normal to the bridge.)

    B features the quick scale patterns so indigenous to orchestral strings.

    C uses a mute, attached to the bridge to subdue the tone. It also uses double-stops, drawing the bow across two adjacent strings together, making two-pitch diads and even two-voice counterpoint. These use an open string and the next string a perfect-fifth higher or fingering a pitch more than a perfect-fifth higher.

    D makes bird-like trills.

    E uses sul tasto, the reverse effect of sul pont, drawing the bow closer to or over the fingerboard for a darker, warmer sound.

    F makes the high, glass-like sounds of natural harmonics, produced by touching a string lightly at one of its partial-vibration nodes while drawing the bow on it. (harmonics, like open strings, have no vibrato. Sorry my synthesizer insists on applying vibrato anyway.)

    G is a very special effect used by George Crumb in his early chamber music. Sometimes called a seagull effect, it produces a quick arpeggiated succession of natural harmonics by running a finger lightly up and down across the partial-vibration nodes of the string.

    The gestures sketched above show a wide variety of pace and rhythmic characters.

    4. Interval language

    The B idea is scalar, running around through an unusual scale. It is almost an octatonic wholetone-halftone scale, but modified by an Ab, making the lower tetrachord the start of a Phrygian mode scale.

    For the rising and falling landscape of melodic lines, choice of pitches and the cumulative constellations they form can be freely crafted the old fashioned way, plunking out pitches on a piano (or on the actual instrument of the piece) in a trial-and-error search for pleasing pitch streams. Identifying one’s favorite intervals can lead to using a more organized cell approach, limiting melodic interval choices to only two or three sizes.

    In the TC example, an interesting constellation is established and simply arpeggiated in various shapes.

    This produces a single, stable harmonic prolongation, a calming stasis in which the line keeps retracing recently touched pitches.

    5. Edit the notation

    The score is not finished until all details are included, showing clear information and intent. A solo line especially needs strong dynamic shaping to be interesting as a solitary musical voice. The following example from the viola solo notates many of the necessities on this checklist:

    • timing information, including tempo, rallentando, fermata
    • expressive indications
    • dynamics, including ample changes, crescendos, diminuendos
    • phrasing such as slurs
    • special techniques such as con sordino, sul pont, sul tasto, harmonics

    6. Overall form

    An unaccompanied solo is a soliloquy. The dramatic tone can vary: a rage; a contemplation; or a story. The form can be a continuous flow of development of a single, persistent gesture, as in Berio’s Sequenza series. Or it can be sectional, a story told in short chapters, a poem divided into stanzas.

    The TC example, actually a previously composed 2018 piece titled Before I Sleep, was written for my colleague Ames Asbell of the Texas State music faculty and Pleasant Street Players, an outstanding artist and player of one of my favorite instruments. The title is a quote from the last lines of Robert Frost’s famous poem “Stopping by Woods,” a contemplation of death on a nocturnal sleigh ride in the snow. The lead motive is a quote from Mahler’s Symphony No. 4, which open with flutes and sleigh bells jingling what is called the “bell theme.” My musical form follows the poem, in three sections:

    • sleigh bells and a trotting horse (gestures A and B)
    • snowflakes (a variation of B transitioning into D and F)
    • contemplation (C and E)

    The poem ends famously with a direct repetition of the last line, “and miles to go before I sleep.” That could have been the going-to-sleep hypnotic musical ending as well, but the poet is not ready to die. My musical ending instead is not a coda but a brief tag, gesture G, the horse gently shaking his bells in the glistening moonlight.

    Before I Sleep

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    MapLab 6. Paint a landscape

  • Mapping Music 3. CHANGE

    Harmonic rhythm is the pace at which chords change in common-practice tonal music. Often in songs or simpler instrumental music, the harmony changes periodically, like once every measure or every half-note or every beat. Even when the rate of chord change is this uniform, it often accelerates approaching a cadence at the end of a phrase or other sectional unit. Calculus suggests that there can be a change in the rate of change, a second-order differential. Beethoven offers something like this in his very late work, the String Quartet No. 16 Opus 135. Here is an excerpt from the Allegretto first movement:

    String Quartet Op. 135 Allegretto, mm. 25-48

    An analytic sketch of the harmonic-root-foundation bass line reveals that F major gives way in the first four bars to a tonicization of the dominant, C major, starting with its dominant, G major:

    The rate of chord change starts as every 4 beats, eventually quickening toward the end of the excerpt to a different chord every 8th-note — an eight-fold quickening of harmonic pace! As you listen again, notice if you feel this intensifying compression of events.

    Going deeper into the tonal groupings of these harmonies, the starting key of F Major gives way to various tonicizations of G, then C. Here is a reductive sketch showing the durations of these tonicizations.

    Op.135 excerpt harmonic reduction

    Since this section is 24 measures long, it could have been composed as three equal 8-measure periods. Instead, the middle-ground tonal rhythm is surprisingly non-periodic, an irregular durational stream consisting of 8, 10, 10, 4, 7, 1, 1, 5, and 2 quarter-notes.

    Beethoven was beyond eccentric at this late point in his career; Op. 135 was the last work he ever completed. Yet the elasticity of harmonic rhythm found in it is a hallmark of his earlier styles as well.

    Beyond meter

    Arising in the middle of the 20th century, highly complex, elastic rhythms began to be composed, in which every durational value was different and notes or events do not group into periodic measures or phrases. An example composed in 1971 is an elegy that makes a conscious effort to avoid articulating periodic beats or falling into groups of notes of periodic duration.

    Meter signatures are present only for notational purposes and change four times in the passage. Only four of the 22 notes fall “on the beat” and only three of those articulate a downbeat.

    Since the note values are so slightly or drastically different, we can measure each duration from the start of a note to the start of the next note as a multiple of fine “time particles” each one-twelfth of a quarter-note. The durational stream is blatantly non-periodic: 30, 12, 44, 8, 14, 6, 21, 9, 31, etc. The rhythmic range of the first four measures is higher than 7, rhythmic variety at 9. The next three measures have a higher rhythmic range of more than 11 and rhythmic variety of 8 (due to the 9-particle dotted 8th-notes that occur five times).

    Beyond a mathematical comparison, a time graph mapping the durations reveals to the eye no periodicity, no perceived meter or regular conforming rhythmic pattern.

    Elegy rhythm graphed

    The rhythm floats above or beyond meter or pulse in a dreamlike, elastic stream. [From Night Songs (1971)]

    Free time

    Defeating the notated meter in this way, by avoiding beats and periodic, conforming note values, was developed to free a stream of events from periodic pulse, thus freeing the listener’s sense of time flow – free time itself. The logical next step, developed concurrently in mid-20th century, was to remove meter entirely as even a notational necessity. Just like the time graphs we have been using to visualize timing of events, a horizontal, proportional scale (such as one half-inch equals one second of time) enables the horizontal placement and spacing of notes on a staff to suggest visually subtly different durations, both of sustained sounds and the time spacing from one event to another.

    Spatial notation

    Spatial notation — non-metric representation of time by proportional horizontal spacing of notes

    After “Elegy,” the first movement of the unaccompanied trombone piece Night Songs, the third movement, “Somniloquy,” was originally notated in this manner – what came to be known as “spatial time.”

    Somniloquy notated spatially

    In his one partially preserved manuscript, On Time, the Greek philosopher Heraclitus wrote about “the unity of opposites” and “flux,” meaning change. “It is not possible to step into the same river twice.” He also imagined that the cosmos is shaped as an enormous vortex of fire.

    That image ignited musical sparks in my imagination for the third movement of my early solo piano work, Geography of the Chronosphere (1975), subtitled “Heraclitean Vortex.”

    The score, in non-metric spatial notation, articulates explosive bursts of notes separated by irregular spans of reverberation.

    Heraclitean Vortex excerpt

    An analytic graph of loudness shows these bursts occurring at unpredictable time intervals, in moments (not so much phrases) of varying length, from 3 to 11 seconds.

    time graph of 11 moments in Heraclitean Vortex excerpt

    Prime time

    Meter, as a periodic grouping of beats, almost always involves groups of two, three, or multiples of these factors. We call them duple meters if the groups are multiples of two, triple meter if multiples of three. Likewise, subdivisions of beats are usually subdivided into twos, threes, or multiples. Sixteenth-notes divide by two to the fourth power.

    A prime number is defined as having no integer (whole number) factors other than one and itself. In metric structure, prime numbers, with no sub-grouping factors of two or three, are more complex – 5 8 or 7 4 time for example. A musical stream that avoids metric regularity can be built with the interaction of prime number series. When repeated periodic streams of note values equivalent to 5, 7, 11 or 13 smaller time values (such as eighth-notes or sixteenth-notes) interact in time, layers of rhythm will seldom strike notes together to make a contrapuntal accent that feels like a downbeat.

    Here is a map illustrating this potential for non-metric independence:

    repeating prime numbers interact

    The bottom row of numbers shows rhythmic values of the composite rhythm, time points marked by an attack of a sound in one strand. If the streams start together as shown, they don’t all come together again until after 5,005 time-units. If each time-unit were a sixteenth-note duration, that would be after 312 four-four measures!

    This is the hidden rhythmic scheme for Night Sky, layers of pitched sounds that don’t synchronize into any meter or composite periodicity. Though not regular and certainly not metric with a pulse, time points are not at all random. Listening to it while not looking at the score’s notational details, pay attention to the way in which the sounds mark points in the flow of time – as stars mark light points in the night sky.

    Night Sky score

    A direct photographic rendering of the middle system of the score illustrates the non-metric, asynchronous timing of note events in a broad texture of sounds. 

    Night Sky score abstracted

    Do stars make spatial patterns? Of course, that’s what our fanciful constellation names are all about. But are those patterns regular, metric, periodic, symmetrical? No – that is part of their magic, a magic that can be metaphorically translated into floating musical time. 

    Beyond Time

    From the classical tradition of Beethoven’s accelerating harmonic rhythm, we jump finally to the very modern stretching of time itself. Einstein explained gravity as the stretching of “Space/Time.” From composers such as Cage and Feldman in the ‘50s, we experience isolated events, moments of sound separated by extended pause. No pulse drives the clockwork of time; it stretches immeasurably into contemplation. Listen.

    Lei Liang, My Windows (2007)

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    Thomas S. Clark

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