Laser
Tensor
Cavity
A realistic, local-only prototype of the six-point coherence model: contain the field, bias the medium, curve the boundary, release a narrow beam through point 6.
Six points. One legal exit.
The prototype treats the laser as an optical cavity abstraction. It is not a fabrication recipe. It models the core behavior that makes lasers interesting: repeated amplification inside a bounded cavity, followed by controlled output through a partially transmissive boundary.
Rest origin
00000 anchors the cavity at a null state. It is the reference frame for drift, not the beam.
Bias seed
00100 introduces a small asymmetry so the field has direction instead of uniform noise.
Output gate
The only allowed release path. Everything curves, reflects, or damps except the coherent beam.
Hypercube language, cavity behavior.
A 1:1 conceptual prototype means the visible rules match the written rules: 98% containment, 2% output coupling, a gas-like gain field, curved tensor boundaries, and a straight coherence beam.
Looks dangerous. Stays simulated.
The design deliberately avoids actionable physical laser construction details: no power supply design, no cavity alignment procedure, no gas pressure recipe, no optics sourcing list. It is a safe optical systems model for thinking about coherence, containment, and output coupling.
Corporate glass. Basement teeth.
The visual language is intentionally split: polished technical confidence over a raw cut-and-paste substrate. The cavity is clean. The field is not. That tension matches the model: disciplined containment around a volatile coherence engine.
Containment: The cavity holds most of the field inside the boundary. In a physical analogy, this resembles a resonator with reflective surfaces and one output coupler. In this prototype, containment is a visual and numerical constraint.
Bias: A perfectly symmetrical field does not prefer a direction. The 00100 point creates an intentional imbalance so the field can be resolved into an output vector.
Curvature: The upper gravity tensor is represented as a curved guide. It does not mean literal gravity. It means the boundary bends the field back toward coherent circulation.
Release: The beam leaves only through point 6. If the field tries to bleed through other boundaries, the simulator folds it back into containment.
Prototype: The page is a working visual model: sliders alter pump, gain, and curvature; the animation changes density, beam brightness, and confinement pressure.