This repository serves as a digital and phenomenal record of the logic and geometry for the Auric Replicator. This work is explicitly tied to the following patent applications:
- USPTO: 19/556,532
- UKIPO: GB2604710.0
- Author: Mark David Louise Kruger
The files in this repository provide the mathematical verification for achieving a Topological Resonance Lock at 148.5 kHz. This is the fundamental frequency required to manifest the "Active-Silence" condition within a 1.0-inch hexagonal aperture.
To achieve the Active-Silence condition for specific elemental targets within the 1.0" aperture, the following frequency and current parameters must be maintained:
| Target Element | Atomic Number (Z) | Target Resonance (f) | Peak Current (Ip) |
|---|---|---|---|
| Gold (Au) | 79 | 148.5 kHz | 2.5A - 5.0A |
| Silver (Ag) | 47 | 175.2 kHz | 2.0A - 4.5A |
| Platinum (Pt) | 78 | 152.1 kHz | 2.8A - 5.2A |
| Copper (Cu) | 29 | 198.4 kHz | 1.8A - 3.5A |
| Palladium (Pd) | 46 | 168.9 kHz | 2.2A - 4.0A |
| Iron (Fe) | 26 | 212.3 kHz | 1.5A - 3.0A |
[cite_start]Data derived from Source Table of Elemental Resonant Frequencies. [cite: 1, 2, 3, 4]
The foundation of the device is the 7-magnet array. The spacing is critical to ensure the B-field cancels at the dead center.
- Center Point: Place the first N52 magnet at (0,0).
- The Ring: Arrange the remaining 6 magnets in a perfect hexagon around the center.
- Spacing: Ensure the distance from the center of the middle magnet to the center of any outer magnet is exactly 25.4 mm (1.0 inch).
- Polarity: All magnets must have their North poles facing the same vertical direction.
To achieve the resonance lock, the coil must be wound to cancel self-induction.
- The Mandrel: Use a non-metallic spool with a 1.0-inch inner diameter.
- The Double-Wrap: Take two strands of 24 AWG Enameled Copper wire and wind them simultaneously (side-by-side).
- Turns: Complete 22 turns (optimized for the target range).
- The Connection: Connect the end of the first strand to the start of the second strand.
- Frequency Input: Connect a PWM signal generator to a MOSFET-based power stage.
- Calibration: Set the target frequency based on the Elemental Table above.
- Voltage Ramp: Slowly increase the DC supply from 48V toward 120V.
- Verification: Monitor for a collapse in magnetic flux (B -> 0) and a peak in the Magnetic Vector Potential (A).
All patent claims have been verified against source files. See the verification notebook for details.
View the interactive simulation notebook showing:
-
148.5 kHz resonance peak (0.003 kHz accuracy)
-
B-field cancellation at center
-
A-field peak at center
-
Active-Silence condition verification
We're looking for skilled individuals WORLDWIDE to help build the first physical working model of the Auric Replicator!
- Be part of history - first to physically realize topological resonance lock
- Contribute to open source science - all findings shared openly
- Work with cutting-edge physics - magnetic arrays, resonance control, precision engineering
- Join a global community of makers, engineers, and researchers
| Role | Skills Needed | Location |
|---|---|---|
| 🔧 Mechanical Engineers | CNC machining, 3D printing, precision assembly | Any country |
| ⚡ Electrical Engineers | PCB design, MOSFET drivers, high-frequency circuits | Any country |
| 🧲 Magnet Specialists | N52 magnet handling, field measurement | Any country |
| 💻 Embedded Developers | Arduino, FPGA, PID control programming | Any country |
| 📊 Physicists | Field theory, resonance analysis, verification | Any country |
| 🏭 Manufacturers | Small-batch production, sourcing components | Any country |
| 📝 Technical Writers | Documentation, assembly guides, videos | Any country |
- Star & Watch this repository to follow progress
- Join our Discord/Slack - [Link to be created]
- Introduce yourself in Discussions
- Pick a task from the Issues list
- Build locally and share your results
| Phase | Goal | Timeline | Help Needed |
|---|---|---|---|
| Phase 0 | Component sourcing worldwide | Now | Global sourcing contacts |
| Phase 1 | First benchtop prototype | Q2 2026 | Assembly volunteers |
| Phase 2 | Resonance verification | Q2 2026 | Test equipment access |
| Phase 3 | Null detection demonstration | Q3 2026 | Precision measurement |
| Phase 4 | Documentation release | Q3 2026 | Technical writers |
We're seeking volunteers in each region to coordinate local efforts:
- 🌎 North America (US, Mexico, Caribbean)
- 🌍 Europe (UK, EU, Scandinavia)
- 🌏 Asia (Japan, Korea, China, India, SE Asia)
- 🌏 Australia/New Zealand
- 🌍 Africa
- 🌎 South America
If you can help coordinate in your region, please comment below!
(You could create a simple issue where people comment with their country and emoji)
| Country | Interested People | Skills |
|---|---|---|
| Canada | @MarkKruger12 | Physics, patents |
| USA | Your name here | Your skills |
| UK | Your name here | Your skills |
| Germany | Your name here | Your skills |
| Japan | Your name here | Your skills |
| Australia | Your name here | Your skills |
| Brazil | Your name here | Your skills |
| India | Your name here | Your skills |
The project is currently self-funded. Options for growth:
- 💰 Crowdfunding - Kickstarter/Indiegogo campaign
- 🏛️ Research grants - Apply with international partners
- 🤝 Corporate sponsorship - Component donations
- 🌿 Open collective - Transparent funding
Interested in helping with funding? Let us know!
- All hardware designs: CERN Open Hardware License
- All software: GPL v3
- Patents: USPTO 19/556,532, UKIPO GB2604710.0 - Available for open source hardware projects under fair terms
- ✅ GitHub repository exists
- ✅ Zenodo archive exists
- ✅ Simulations available
- ⬜ Create communication channels (Discord/Slack)
- ⬜ First physical prototype
- ⬜ Documentation in multiple languages
Join us in building the future! 🇨🇦🇺🇸🇬🇧🇩🇪🇫🇷🇯🇵🇦🇺🇧🇷🇮🇳🇿🇦🇰🇷🇸🇬
This project is licensed under the GNU General Public License v3.0. Note: This license includes an explicit patent grant to users of the software, as outlined in the GPL-3.0 text, while preserving the author's primary patent claims.
Created as a digital trail from the noumenal to the phenomenal world.