This is the Linux app named Scalar-Defense-System whose latest release can be downloaded as V1.0sourcecode.tar.gz. It can be run online in the free hosting provider OnWorks for workstations.
Download and run online this app named Scalar-Defense-System with OnWorks for free.
Follow these instructions in order to run this app:
- 1. Downloaded this application in your PC.
- 2. Enter in our file manager https://www.onworks.net/myfiles.php?username=XXXXX with the username that you want.
- 3. Upload this application in such filemanager.
- 4. Start the OnWorks Linux online or Windows online emulator or MACOS online emulator from this website.
- 5. From the OnWorks Linux OS you have just started, goto our file manager https://www.onworks.net/myfiles.php?username=XXXXX with the username that you want.
- 6. Download the application, install it and run it.
Scalar-Defense-System
Ad
DESCRIPTION
Scalar Defense leverages wave-like properties of Fuzzy Dark Matter to detect, track & deflect asteroids. Manipulating scalar fields (ϕ) & their interference patterns, system creates controlled gravitational potentials can alter asteroid trajectories. Foundation is the two-field FDM model, allows tuning density fringes via mass & velocity parameters
Features
- Implementation Challenges & Mitigations Weak Gravitational Coupling Solution: Use resonance—match interference pattern frequency to asteroid’s orbital motion for cumulative effect. Energy Requirements Solution: Leverage ambient dark matter fields (if local density enhanced) or utilize superconducting cavities for efficient scalar wave generation. Precision Control Solution: Quantum feedback loops using entanglement between emitted fields and sensor arrays. Projected Performance Deflection Capability: For a 100-m asteroid, a sustained potential gradient of ∇Φ ∼ 10⁻¹⁰ m/s² over 1 month yields Δv ∼ 0.3 m/s—sufficient for miss-distance > Earth radius. Detection Range: Phase-shift sensitivity of 10⁻⁶ rad allows detection of 10-m asteroids at 0.1 AU. Experimental Roadmap Lab-scale validation: Demonstrate fringe control and gravitational modulation using atom interferometry. Space-based prototype: Deploy small-scale field emitters in orbit to test deflection on artificial targets. Full-scale system: Orbital array covering key Lagrangian points for 24/7 asteroid monitoring and deflection. Connection to Original FDM Derivation The defense system directly applies: Non-relativistic limit → Schrödinger-Poisson system for wave-like dynamics. Two-field interference → Tunable density fringes. Solitonic solutions → Stable, high-density lenses for amplification. This system transforms FDM from a cosmological model into an active defense mechanism, leveraging scalar wave interference for gravitational manipulation. While speculative, it provides a theoretical framework for asteroid mitigation based on wave dark matter principles.
