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PROJECT GAIA

Global Climate Restoration — Quantum design of a Metal-Organic Framework (MOF) via VQE for zero-energy CO₂ capture at gigatonne scale. Replicating photosynthesis efficiency at industrial throughput.

MOF-74 DFT HAMILTONIAN 400 KNITTED QUBITS (4×100q) CARBON SPONGE OPTIMIZED
OPTIMAL PORE (Å)
Aperture Diameter
BINDING ENERGY
kJ/mol CO₂ Adsorption
VQE ITERATIONS
Descent Steps
RAW QPU FIDELITY
ibm_fez / Unmitigated

🧪 CO₂ ADSORPTION ENERGY LANDSCAPE — VQE DESCENT TO CARBON SPONGE

📉 ADSORPTION ENERGY CONVERGENCE

🎯 MOLECULAR SELECTIVITY PROFILE

🌡️ CLIMATE IMPACT PROJECTION

40 Gt/yr
CO₂ Capture Capacity — Reverse global warming in months, not decades

🔗 CIRCUIT KNITTING TOPOLOGY (4×100q → 400q)

100q
METAL CENTER α
100q
METAL CENTER β
100q
ORGANIC LIGAND α
100q
ORGANIC LIGAND β
⬇ TENSOR NETWORK CONTRACTION (χ=256) ⬇
400 VIRTUAL QUBITS on 156 Physical (IBM Marrakesh)
Strategy: The MOF Hamiltonian is partitioned into Zn²⁺/Mg²⁺ metal coordination centers and organic linker subspaces. Each partition runs as two 100q sub-circuits on the 156q hardware. Tensor contraction reconstructs the full 400-qubit guest-host interaction landscape.

🛡️ V9.0 ERROR MITIGATION

🌿 CO₂ SELECTIVITY PHASE DIAGRAM