Mission
Mission
The 3 Stage Fusion Plan
The 3 Stage Fusion Plan
Stage 1
Simulation & Design
Our innovative magnetic field design inspired by TOKAMAKS and Stellarators, increases plasma confinement time to surpass the Lawson criteria which is necessary for steady state fusion operations. Pranos ensures total compliance with AEA standards, leveraging advanced plasma software with integrated ML algorithms to simulate micro-level physics and mitigate instabilities for a wide frequency range.
Stage 1
Simulation & Design
Our innovative magnetic field design inspired by TOKAMAKS and Stellarators, increases plasma confinement time to surpass the Lawson criteria which is necessary for steady state fusion operations. Pranos ensures total compliance with AEA standards, leveraging advanced plasma software with integrated ML algorithms to simulate micro-level physics and mitigate instabilities for a wide frequency range.
Stage 1
Simulation & Design
Our innovative magnetic field design inspired by TOKAMAKS and Stellarators, increases plasma confinement time to surpass the Lawson criteria which is necessary for steady state fusion operations. Pranos ensures total compliance with AEA standards, leveraging advanced plasma software with integrated ML algorithms to simulate micro-level physics and mitigate instabilities for a wide frequency range.
Stage 2
Confinement Device
One of a kind, compact tabletop magnetic confinement device that brings computer design & simulations to physical reality. This device allows plasma to be controlled and studied in detail, addressing instabilities and optimizing efficiency. Serving as a demonstration device, it bridges the gap between advanced simulations and the development of a commercial fusion reactor.
Stage 2
Confinement Device
One of a kind, compact tabletop magnetic confinement device that brings computer design & simulations to physical reality. This device allows plasma to be controlled and studied in detail, addressing instabilities and optimizing efficiency. Serving as a demonstration device, it bridges the gap between advanced simulations and the development of a commercial fusion reactor.
Stage 2
Confinement Device
One of a kind, compact tabletop magnetic confinement device that brings computer design & simulations to physical reality. This device allows plasma to be controlled and studied in detail, addressing instabilities and optimizing efficiency. Serving as a demonstration device, it bridges the gap between advanced simulations and the development of a commercial fusion reactor.
Stage 3
Commercial Fusion Capability
Scaling up from the demo reactor, a compact fusion capable device will be constructed. This marks the transition to the widespread adoption of fusion energy, potentially revolutionizing energy production. The reactor can power large-scale industrial operations, urban power grids, remote communities, desalination plants, data centers, and even space exploration missions, offering a clean, adaptable, and virtually limitless energy source for diverse applications.
Stage 3
Commercial Fusion Capability
Scaling up from the demo reactor, a compact fusion capable device will be constructed. This marks the transition to the widespread adoption of fusion energy, potentially revolutionizing energy production. The reactor can power large-scale industrial operations, urban power grids, remote communities, desalination plants, data centers, and even space exploration missions, offering a clean, adaptable, and virtually limitless energy source for diverse applications.
Stage 3
Commercial Fusion Capability
Scaling up from the demo reactor, a compact fusion capable device will be constructed. This marks the transition to the widespread adoption of fusion energy, potentially revolutionizing energy production. The reactor can power large-scale industrial operations, urban power grids, remote communities, desalination plants, data centers, and even space exploration missions, offering a clean, adaptable, and virtually limitless energy source for diverse applications.