6
Six Point Coherence Cavity
Optical cavity simulation // gas gain medium // 98/2 output coupling

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.

98% containment2% outputP6 beam gategas gain simulation
Cavity locked
containment 98.0%
clean model

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.

P0

Rest origin

00000 anchors the cavity at a null state. It is the reference frame for drift, not the beam.

0
P1

Bias seed

00100 introduces a small asymmetry so the field has direction instead of uniform noise.

1
P6

Output gate

The only allowed release path. Everything curves, reflects, or damps except the coherent beam.

6
prototype map

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.

P4: UPPER GRAVITY TENSOR curved containment P2 )))))))))))))) P3 ) ( ) 98% FIELD ( -----> P6 COHERENCE OUTPUT ) 00100 bias ( ) 00000 rest ( ) ( P5 (((((((((((( return curve Kernel: REST(00000) BIAS(00100) CONTAIN(0.98) OUTPUT_COUPLE(0.02) RELEASE_ONLY(P6) RESET_DRIFT()
mediumgas-gain simulation, normalized
containment0.98 default, slider-derived
output0.02 via point 6
boundarycurved reflective tensor
beamstraight coherence vector
scopevisual + mathematical sandbox
realism boundary

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.

Safety note: Real lasers can permanently injure eyes, burn skin, ignite materials, and violate regulations when built or operated incorrectly. This page is a local visual simulator and conceptual document only.
design notes

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.