Tag: integrated correlation functions
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Quantum Computers Extract Scattering Phase Shift in 1D Systems via Integrated Correlation Functions
Overview: A New Route to Scattering Phase Shifts Understanding how particles interact at the quantum level often hinges on accurately calculating scattering phase shifts. These shifts encode how wavefunctions evolve as particles scatter and interact, revealing fundamental properties of the forces at play. Traditionally, determining phase shifts in one-dimensional (1D) systems has posed significant theoretical…
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Quantum Computers Map Scattering Phase Shifts in 1D Systems via Integrated Correlations
Breakthrough ties quantum computing to scattering theory in one dimension Understanding how particles scatter and interact at the quantum level is a foundational pursuit in physics. A team of researchers, including Peng Guo, Paul LeVan, and Frank X. Lee, has proposed a novel approach that leverages quantum computers to extract scattering phase shifts in one-dimensional…
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Quantum Computers Unveil Scattering Phase Shifts in 1D Systems via Integrated Correlation Functions
Quantum computing meets scattering theory in one dimension Understanding how particles interact at the quantum level often hinges on accurately determining scattering phase shifts. These shifts encode how wavefunctions evolve as particles interact, revealing fundamental properties of the system. A recent wave of research explores a novel approach: using quantum computers to calculate these phase…