RET Lab v1.0 — Resonant Emergence Theory Quantum Simulator: An Interactive Tool for Exploring TM–BM Resonance-Based Wavefunction Collapse

RET Lab is an interactive browser-based simulator accompanying the theoretical paper "Resonant Emergence Theory (RET): A TM–BM Information-Theoretic Framework for Quantum State Collapse and the Measurement Problem" (Khan, 2026). The simulator allows real-time exploration of the RET collapse condition ΓRET = R (TM, BMₑnv) × S (ρₑnv) ≥ θc, where Bold Memory (BM) is operationalised as von Neumann entropy S (ρₑnv) and Resonance (R) as quantum fidelity F (ρTM, ρₑnv). Users can adjust five parameters (BM entropy, quantum fidelity, collapse threshold, coupling strength, thermal occupancy) and observe real-time coherence decay curves, BM and fidelity sweeps, and a novelty comparison against the standard decoherence rate Γₛtd = γ (2nₜh + 1). The Novelty Test tab directly addresses the critical question raised by peer reviewers: whether RET merely renames standard decoherence theory or makes genuinely distinguishing predictions. The simulator demonstrates that when coupling γ varies at fixed entropy S, the standard rate changes proportionally while the RET rate remains constant — an experimentally distinguishable prediction testable via cavity QED with tunable coupling and fixed-entropy bath. Built in pure HTML/JavaScript. No installation, no API key, no internet required. Runs offline on any device including mobile. Author: Alim ul Haq KhanAffiliation: Independent Researcher, AURA-X Ω Research Cell, Timergara, Khyber Pakhtunkhwa, PakistanORCID: 0009-0001-4708-0365Website: alimai. online