This repository presents the design of a hybrid propulsion system integrating advanced quantum computing with effective thermal and vibration shielding. The system aims to ensure the functionality of superconducting and semiconducting qubits in hostile environments.
Below is a highly detailed technical diagram showcasing the hybrid propulsion system, including:
- Josephson Junctions
- Resonant Cavities
- Electric Motor with integrated quantum components
- Advanced thermal and vibration shielding layers
A more specific design focused on Josephson Junctions, resonant cavities, and quantum signal processing in a modular layout.
- Thermal Shielding: Multi-layer system with Kapton aluminized outer layers and aerogels for thermal insulation.
- Vibration Isolation: Active and passive isolation systems using piezoelectric actuators and reinforced silicone dampers.
- Quantum Integration: CPW star resonators and Josephson Junctions for precise quantum computations.
- Radiation Shielding: Kevlar and high-density polyethylene for protection against cosmic radiation.
- Propulsion System: Hybrid motor combining electric and chemical propulsion technologies.
- Space missions requiring precision quantum computations.
- Hybrid propulsion for interplanetary travel.
- Advanced sensor integration for space exploration.
- Resonator Design Example: Enlace a la página de Qiskit Metal
- Electric Motor Simulation and Design Guide: Enlace al artículo de SimScale
- Sensors: RLS Linear Sensors
- Clone the repository:
git clone https://github.com/yourusername/Hybrid-Propulsion-System.git
To work with this project, you may need to install Qiskit Metal if you're interested in designing quantum components like resonators or other devices. This can be used in combination with the design of electric motors for rockets, offering a unique perspective on integrating quantum designs with propulsion systems.
To install Qiskit Metal, you can use the following command:
pip install qiskit-metal
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Other Notes
Reference PDF:
Semiconductor-Superconductor Josephson Junctions in the Presence of Zeeman and Spin-Orbit Fields by Christian Baumgartner.
Documentation Needs:
Integration of electric motors and CPW resonator chips in aviation environments requires compliance and aviation documentation support. Ensure you collect and reference the necessary standards and certifications when working with these systems.
Intel i9 processor needed!
# Quantum Energy Propulsion System ideas
## Overview
This second project explores a **Riemann Tensor-Based Engine** for advanced quantum energy propulsion, leveraging spacetime curvature and quantum mechanics. Inspired by black hole dynamics, the system integrates higher-dimensional interactions to generate energy for propulsion.
## Key Concepts
1. **Riemann Tensor Structure:**
Mimics spacetime curvature to manipulate geodesics for propulsion.
2. **Quantum Energy Sources:**
Utilizes quantum fluctuations (e.g., Casimir effect, Hawking radiation) to extract energy.
3. **Black Hole-Inspired Dynamics:**
Designs based on Kerr metrics to achieve stable spacetime distortions.
## Applications
- Faster-than-light propulsion.
- Quantum energy generation for sustainable power.
- Advanced exploration of spacetime and quantum phenomena.
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## How to Use
1. Clone the repository:
```bash
git clone https://github.com/yourusername/Quantum-Energy-Propulsion.git
pip install qiskit-metal
## References
Semiconductor-Superconductor Josephson Junctions by Christian Baumgartner.
Riemann Tensor & General Relativity Applications.
## Notes
Integration of quantum components requires compliance with aviation documentation standards.
For optimal performance, an Intel i9 processor or equivalent is recommended.