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Quantum Simulation of Anti-Matter to Dark Energy Transition

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posted on 2025-04-25, 18:14 authored by Gizem BertanGizem Bertan

This OpenQASM 2.0 circuit models the quantum transition of anti-matter into dark energy through a time-dependent conversion mechanism. The simulation initializes the anti-matter qubit in an excited state (|1⟩), representing available energy. A control qubit is placed in superposition to act as a temporal or evolutionary factor. A conditional phase rotation (CRZ gate) simulates the η_conversion(t) efficiency, influenced by an example decay parameter γ = π/4. The energy from anti-matter is then conditionally transferred to a "dark energy register" using a CNOT gate. The final Hadamard operation and measurement analyze the conversion result, allowing quantum interference to reveal the effectiveness of transition. This model can serve as a foundational framework for exploring anti-time energy theories and vacuum energy fluctuations.

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