D# Mystery #1 Guitar Scale
Guitar scale in Baritone (B Standard) tuning — fretboard diagram
D# Mystery #1 in Baritone (B Standard) — Notes and Intervals
The D# Mystery #1 scale is a rare and experimental synthetic scale found in modern music theory. On Guitar, its notes are D#, E, G, A, B, C#. It is typically associated with generative music and computer-aided composition where traditional rules of melody and harmony are intentionally broken. Commonly used in Experimental, Computer Music, Avant-Garde. Used in experimental, non-functional contexts. A compositional curiosity for exploring unconventional melodic paths.
Notes: D#, E, G, A, B, C#
Intervals: 1P, 2m, 3M, 5d, 6m, 7m
Degrees: 1 b2 3 4 b5 b6
Formula: H-WH-W-W-W-W
Number of notes: 6
Tuning: Baritone (B Standard) (B-E-A-D-F#-B)
About Baritone (B Standard) Tuning
The baritone guitar is tuned a perfect fourth lower than standard guitar (B-E-A-D-F#-B), producing a distinctly beefy tone with serious low-end depth that sits perfectly between guitar and bass. Its rich, dark voice has made it a secret weapon in film scoring, ambient music, and moody songwriting where you need that unmistakable low-end warmth without losing clarity.
Unlike simply tuning a standard guitar down (which causes floppy strings and muddy tone), the baritone guitar uses a longer scale length (typically 27"-30") designed specifically for lower tunings. This gives each note clarity and definition even in the lowest register. Session musicians, film composers, and bedroom producers alike reach for the baritone when they need dark, atmospheric textures, doom-laden riffs, or simply a different sonic palette that standard guitar can't deliver.
Notable artists: Pat Metheny, Nels Cline, Brian Setzer, Baritone session players in Nashville
Best for: Moody songwriting, film scoring, ambient textures, doom metal, and any production that needs low-end depth with clarity
Musical Character
A rare synthetic scale from modern music theory, associated with generative and computer-aided composition where traditional rules are intentionally broken.