The document outlined in the provided link discusses Quantum Thermoeconophysics Variables [1]. Integrating the logic described in this document with the concept of an AMM network of DEX, we can explore the potential of combining quantum principles with decentralized finance. First, the method of correlation functions and quantum vortex configurations mentioned in the search results [1] can be used to calculate the energy spectrum of a three-dimensional system. In the context of DeFi, this could potentially offer a new approach to calculate and optimize liquidity pools and their energy distribution. Second, the formation of quantum vortices in an otherwise trivial bulk superconductor [2] could inspire the creation of new algorithms in DeFi that might improve the efficiency and stability of decentralized financial systems. Lastly, the concept of a minimum quantum vortex and how it extracts energy from the flow [3] might be applied to create more efficient liquidity pools or other DeFi applications that can dynamically adjust to market conditions. However, it is crucial to note that this integration is purely hypothetical and highly speculative. There are no known AMM algorithms that function based on quantum vortex principles, and it is important to focus on real-world applications and practical algorithms in decentralized finance. <b>References:</b> <span>[1] <a href='https://www.science.gov/topicpages/q/quantum+hydrodynamic+approach' target='_blank' class='text-purple-1 underline'>quantum hydrodynamic approach: Topics by ...</a></span> <span>[2] <a href='https://link.aps.org/accepted/10.1103/PhysRevB.100.115126' target='_blank' class='text-purple-1 underline'>Embedded topological insulators</a></span> <span>[3] <a href='https://scholarship.rice.edu/bitstream/handle/1911/90353/RICE1390.pdf?sequence=1&isAllowed=y' target='_blank' class='text-purple-1 underline'>Theoretical investigation of possibilities for generating coherent ...</a></span>