Electromagnetic Propulsion

• Core Logic: Operating via the Lorentz Force F = q(E + v \ B ) to achieve hyper-velocity in a vacuum environment.

• Efficiency: Achieving a total system efficiency of 85%, significantly outperforming traditional chemical rocketry.

Final Velocity: Acceleration to 11,200 m/s, the precise threshold required for Trans-Lunar Injection (TLI).

Acceleration Profile: Constant acceleration of 1,294.34 m/s^2 over a 45.8km track.

Heading: Inertial Damping & Bio-Payload Integrity

Current Validation Stage: TRL-4 (Technology Readiness Level 4) Our proprietary Smart Hydrogel Damping System is currently undergoing rigorous testing to ensure the survival of sensitive payloads under extreme acceleration.

• Strategic Partnership: Testing is conducted at the Gravion Microgravity Lab (France), hosted within the International Space University (ISU) Incubator ecosystem.

• The 132 G Challenge: The research focuses on validating hydrogel performance at a constant acceleration of 132 G's, simulating the exact forces of the EMLS launch profile.

• Key Benchmark: Preliminary success includes Egg Survival Tests at 100 G, proving the system's ability to protect complex biological structures.

• Dual-Purpose Innovation: Once the Earth-escape phase is complete, the damping material is engineered to be repurposed as post-launch propellant, significantly increasing mission mass efficiency.