Experimental Tachyonic Transmission Emulator Using FPGA and Time-of-Flight Signal Prediction.

Introduction

Faster-than-light (FTL) particles, or tachyons, are hypothetical entities proposed in theoretical physics. Although their existence remains unverified, certain signal-processing and quantum-mechanical effects have been interpreted as mimicking FTL behavior. This project presents an electronic circuit that reproduces such effects through signal prediction and phase manipulation using an FPGA-based processor and delay-engineered transmission media.

Objective

To design, construct, and document an experimental electronic system that simulates faster-than-light (FTL) signal propagation using predictive logic, time-phase manipulation, and advanced signal-processing techniques. The system does not violate relativistic speed limits but demonstrates how FTL-like behavior may be emulated or misinterpreted through sophisticated measurement and timing systems.