Quantum Simulation of Anti-Time Contribution to Cosmic Expansion (Friedmann Model)

This OpenQASM 2.0 simulation models the relative contributions of matter (Ωm), dark energy (ΩDE), and anti-time (Ωanti) to the expansion of the universe based on a simplified Friedmann framework. Each density parameter is encoded as a phase rotation on a distinct qubit. Quantum Fourier Transform (QFT) techniques are applied to reveal cumulative phase interference patterns, which represent the influence of each component on cosmic expansion. The addition of an anti-time parameter introduces a novel theoretical element, offering a quantum approach to simulate subtle temporal anomalies that could affect the balance between matter and dark energy. This model is ideal for probing quantum cosmology concepts involving alternative time dimensions.