Towards Quantum Stability: A Multidisciplinary Framework for Robust Quantum Computing Architectures
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https://zenodo.org/doi/10.5281/zenodo.17050560
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Quantum computing promises revolutionary advancements across science and technology, yet the inherent fragility of quantum states—arising from decoherence, environmental noise, and computational errors—remains a significant hurdle to scalable, fault-tolerant quantum computers. This conceptual paper proposes a novel, multidisciplinary framework integrating insights from thirty diverse fields, ranging from condensed matter physics and advanced materials science to neuroscience, artificial intelligence, and astrobiology. By leveraging synergistic advancements in error correction, materials engineering, environmental control, bio-inspired computing, and novel theoretical paradigms, we aim to achieve robust quantum stability. This paper outlines key research thrusts, interdisciplinary interfaces, and potential methodologies to accelerate the development of stable, scalable quantum computing platforms, ultimately impacting our fundamental understanding of information and reality [Nielsen2010].
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2025-09-03



