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BREAKTHROUGH FUSION TECHNOLOGY

Laser-Driven
Inertial Confinement Fusion

Commercializing laser-driven fusion energy for critical infrastructure. Building on Lawrence Livermore National Laboratory's historic net energy gain achievement (NIF, December 2022: 3.15 MJ → 8.6 MJ, 4.13x yield). Target deployment: 200 MW demonstration reactor by 2030.

Futuristic fusion reactor control room

Advanced fusion reactor control center with real-time telemetry and holographic displays

30x
Energy Gain Target
Pearl capsule design
200 MW
Target Power Output
Commercial demonstration
10 Hz
Laser Repetition Rate
High-throughput operation
2030
Target Deployment
First demonstration unit

Three Critical Systems

Our integrated approach combines breakthrough laser technology, proprietary fuel capsules, and advanced reactor engineering to achieve commercial fusion energy.

High-power laser beam through optical system

Precision laser optics with frequency doubling and beam shaping

High-Rep Lasers

Diode-pumped solid-state lasers delivering 2 MJ at 10 Hz repetition rate. Advanced thermal management and adaptive optics ensure consistent beam quality.

Energy per pulse:2 MJ
Repetition rate:10 Hz
Wavelength:351 nm (UV)
Automated Pearl capsule manufacturing facility

High-precision robotic assembly of fusion fuel capsules in cleanroom environment

Pearl Capsules

Proprietary multi-layer fuel capsules with graded density profiles. Achieves 30x energy gain through optimized implosion symmetry and hot-spot formation.

Target gain:30x
Diameter:2 mm
Production cost:$0.87/unit
Futuristic city powered by fusion energy

Compact fusion reactor integrated seamlessly into urban infrastructure

Reactor Chambers

Liquid lithium blanket for neutron absorption and tritium breeding. Modular design enables rapid maintenance and 99.7% uptime.

Power output:200 MW
Target uptime:99.7%
Footprint:Compact
Fusion physicist in research laboratory

World-class fusion research team with expertise from LLNL, NIF, and leading laser physics programs

MASSIVE MARKET OPPORTUNITY

Powering the AI Revolution

Exploding Data Center Demand

U.S. data center power demand projected to reach 106 GW by 2035, driven by AI/ML workloads. Current grid infrastructure cannot support this growth.

Clean, Reliable Baseload Power

Fusion provides 24/7 carbon-free energy with no intermittency, no long-lived waste, and minimal land use—ideal for data centers.

Competitive Economics

Target LCOE of $60-80/MWh at scale, competitive with natural gas and significantly cheaper than diesel backup generation.

Wight Light Laser Token

Download Our Complete Pitch Deck

Explore our comprehensive investor presentation with detailed technical specifications, market analysis, financial projections, and execution roadmap.

📊 Download Full Pitch Deck (PPTX)

Note: Pitch deck contains confidential information. Accredited investors only.

Ready to Power the Future?

Join us in commercializing fusion energy for critical infrastructure. We welcome inquiries from accredited investors, strategic partners, and data center operators.