Chromatic 128 Phase Well
A conceptual 1:1 visual prototype: 64 upper emitters and 64 lower emitters fixed in place, firing into a pure-white capacitance well. Phase steps advance at .001. The center integrates color pressure, holds charge, then discharges as coherent white output.
What it is
This is a symbolic but physically-inspired optical cavity simulator. The emitters are not build instructions. They are fixed vectors in a bounded computational field. Every beam points at the center. The center behaves like a capacitance well: it accumulates normalized beam contribution, leaks slowly, and releases a white pulse when threshold is reached.
Upper 64
The upper ring advances with direct phase order. Each point owns one hue from the chromatic sweep.
Lower 64
The lower ring mirrors the upper ring. It is phase-offset, creating a paired tension rather than a duplicate.
White 129
The center is not a color. It is the summation point. When the field coheres, it reports pure white.
Kernel
TOTAL_EMITTERS = 128
UPPER = 64
LOWER = 64
CENTER = capacitance_well
PHASE_STEP = 0.001
for each tick:
upper[0..63] fire inward
lower[0..63] fire inward
well.charge += coherent_sum
well.charge -= leakage
if well.charge >= threshold:
emit_white_pulse()
well.charge *= recovery_factor
boundary:
fixed vectors only
no cross-domain bleed
no physical output parameters
Boundary note
This is a simulation and visual design prototype. It intentionally avoids physical laser construction details, power values, optical hazard procedures, or instructions for building a real emitter array.