LUXBIN Light Language Protocol

The Light Language is LUXBIN's method for encoding quantum information into photonic states.

Wavelength Spectrum

LUXBIN operates in the visible spectrum (400-700nm) with specific wavelengths assigned to different information types:

Wavelength    Color      Purpose
──────────────────────────────────
400-450nm    Violet     Control signals
450-490nm    Blue       Quantum data
490-520nm    Cyan       Entanglement
520-565nm    Green      Classical sync
565-590nm    Yellow     Error correction
590-625nm    Orange     Authentication
625-700nm    Red        Measurement

Encoding Schemes

Polarization Encoding

Quantum information is encoded in the polarization state of photons:

|H⟩ = Horizontal = |0⟩

|V⟩ = Vertical = |1⟩

|D⟩ = Diagonal = (|0⟩ + |1⟩)/√2

|A⟩ = Anti-diagonal = (|0⟩ - |1⟩)/√2

Time-Bin Encoding

For long-distance transmission:

Early time slot = |0⟩

Late time slot = |1⟩

Superposition of both = |+⟩

Protocol Layers

Physical Layer

Raw photon generation and detection using:

Single-photon sources

Parametric down-conversion

NV-center emission

Link Layer

Point-to-point quantum communication:

Quantum error correction

Entanglement distillation

State verification

Network Layer

Multi-node quantum routing:

Entanglement swapping

Quantum repeaters

Bell state measurements

Interoperability

LUXBIN Light Language is designed to work with existing quantum hardware from:

IBM Quantum

IonQ

Quandela

Amazon Braket