Patent No. US‑2065‑128404
Chrono‑Directional Transit Sphere (Forward‑Time Machine)

1. Core Concept
The Chrono‑Directional Transit Sphere (CDTS) is a two‑meter‑diameter hollow sphere that propels its internal volume—along with occupants or payload—along the positive arrow of time at an accelerated rate. It harnesses a controlled, high‑gradient electromagnetic (EM) envelope to dilate local spacetime, effectively running the interior clock faster than the external reference frame without violating causality.

2. Hardware Architecture
• Neodymium Flux Shell – An inner lattice of N55‑grade neodymium magnets arranged in a pseudo‑icosahedral geodesic. Each magnet is dynamically biased by surrounding Helmholtz coils to create a rotating quadrupole field.
• Toroidal Field Generators – Eight superconducting niobium‑tin toroids encircle the sphere’s equator, pulsed sequentially to spin a 30‑tesla EM bubble around the outer carbon‑nanotube composite shell.
• Cryogenic Stabilization Core – A closed‑cycle helium‑4 cooling loop maintains the toroids at 6 kelvin, while an active radiator system rejects 15 kilowatts of waste heat to space or atmosphere.
• Inertial Dampening Seat – Gimbal‑mounted seating with magnetorheological dampers absorbs micro‑vibrations and compensates for transient gravitational shear inside the bubble.

3. Control and Synchronization Stack
• Field Harmonizer: A real‑time FPGA array measures magnetic flux vectors at 10 kHz and tunes coil currents to keep the EM envelope uniform within ±0.05 tesla.
• Spacetime Gradient Estimator: Uses dual‑rubidium atomic clocks—one inside, one outside—to compute dilation rate and adjust field rotation speed.
• Safety Interlock: A machine‑learning anomaly detector monitors coil impedance and magnet temperature; any deviation beyond two sigma triggers a rapid quench and field collapse in under 120 milliseconds.

4. Key Claims
1. Rotational Quadrupole Flux Envelope capable of sustaining a continuous 30‑tesla shell while limiting eddy‑current heating of the hull to below 20 °C.
2. Active Gradient Synchronization that maintains temporal acceleration factors between 1.2× and 15× real time with sub‑millisecond jitter.
3. Compact Cryo‑Superconductor Assembly achieving >95 percent coil efficiency in a mobile device weighing under 2,500 kilograms.

5. Technical Advantages
• Generates forward‑time transit without relativistic velocities, avoiding the radiation hazards of near‑light‑speed travel.
• All‑solid‑state magnetic system eliminates consumables, enabling infinite duty cycles provided power is supplied (nominal draw: 18 MW during ramp‑up, 4 MW steady‑state).
• Modular coil bays allow field‑strength upgrades by swapping toroid cartridges rather than replacing the entire shell.

6. Commercial and Defense Applications
• Deep‑Space Logistics: Crew or cargo can experience long missions in a subjective fraction of elapsed external time, cutting life‑support mass for interplanetary trips.
• Strategic Reconnaissance: Forward‑time jump lets analysts review incoming sensor feeds “live” while days or weeks pass outside, accelerating decision cycles.
• Medical Research: High‑throughput drug testing where in‑sphere biology cycles faster, compressing multi‑year studies into months.

The CDTS positions OwO Corp. at the frontier of controlled temporal dynamics, protected by claims that tightly integrate high‑field magnetics, cryogenic engineering, and precision time‑synchronization algorithms—creating a barrier to entry that rivals cannot breach without duplicating the full multidisciplinary stack.