First-author optical tensor prototype · simulation only

98 held.
2 released.
Point 6 speaks.

A cleaned six-point gas-cavity model: rest at 00000, bias at 00100, curved upper containment, lower return, and one legal coherence output path.

P0 RESTP1 BIASP4 GRAVITY CURVEP6 OUTPUTNO BLEED
Prototype goal: as close as possible to an optical-cavity behavior model while staying safely in simulation. No power supply, no gas tube build, no mirror-alignment recipe.
Contained
98.0%
Output
2.0%
Coherence
0.62
Energy
0.32

The cleaned model

The cavity is a bounded field with one permitted escape vector. Everything else curves, reflects, damps, or folds back into containment.

P4 — upper gravity tensor ╭────────────────────╮ P2 ← │ 98% contained gas │ → P3 │ P1 = 0 0 1 0 0 │ ───────▶ P6 coherent output │ P0 = 0 0 0 0 0 │ ╰────────────────────╯ P5 — lower return tensor LAW: curve everything except the beam · hold 98 · release 2 · no bleed

P0 — Rest Origin

The null coherence coordinate: 00000. The field can return here without being erased.

P1 — Bias Point

The asymmetry coordinate: 00100. It creates a preferred direction without destabilizing the cavity.

P6 — Output

The only legal leak. Simulated coherent energy leaves here as the beam/report channel.

Point table

PointCoordinate / roleBehavior
P00 0 0 0 0Rest, null, recovery origin.
P10 0 1 0 0Containment bias; directional preference.
P2/P3lateral boundariesReflect or absorb non-output vectors.
P4upper gravity tensorCurves the field, suppresses upward scatter.
P5lower return tensorReturns drift into the resonant body.
P6coherence outputReleases the 2% output-coupled beam.

Bare-metal kernel

REST(P0 = 00000) BIAS(P1 = 00100) PUMP_GAS_GAIN() CURVE_FIELD(P4, P5) CONTAIN(0.98) ALIGN_PHASE() RELEASE(P6, 0.02) NO_BLEED() RESET_DRIFT() LOOP()

Reality boundary

This prototype intentionally stops at simulation. Real laser systems can injure eyes, burn materials, require high voltage, and may be regulated. The useful enterprise-grade artifact here is the model: containment, output coupling, drift reporting, and boundary logic.

The page is local-only. It performs no network calls and emits no external signals. The “beam” is a canvas visualization.