Physics-Inspired Quantum Simulation of Resonating Valence Bond States─A Prototypical Template for a Spin-Liquid Ground State

Abstract: Spin liquids�an emergent, exotic collective phase of matter�have garnered enormous attention in recent years. While experimentally many prospective candidates have been proposed and realized, theoretically modeling real materials that display such behavior may pose serious challenges due to the inherently high correlation content of such phases. Over the last few decades, the second-quantum revolution has been the harbinger of a novel computational paradigm capable of initiating a foundational evolution in com… Show more

“…These algorithms show promising results in solving research challenges that are beyond the capabilities of even the most powerful conventional supercomputers. , Central to the efficacy of such algorithms exist fundamental quantum properties, including superposition, entanglement, coherence, and interference. Recent advancements in quantum hardware have spurred a swift surge in the creation of innovative quantum algorithms. − The predominant focus of algorithmic development encompasses a diverse array of topics such as spectroscopy, − electronic structure, − vibrational structure, quantum many-body problems, , and open quantum dynamics. , Notably, the application of these algorithms to address scattering problems has received limited attention thus far. This study aims to bridge this gap by developing a quantum algorithm specifically designed to estimate scattering matrix elements for both elastic and inelastic collision processes.…”

Simulation of Chemical Reactions on a Quantum Computer

“…These algorithms show promising results in solving research challenges that are beyond the capabilities of even the most powerful conventional supercomputers. , Central to the efficacy of such algorithms exist fundamental quantum properties, including superposition, entanglement, coherence, and interference. Recent advancements in quantum hardware have spurred a swift surge in the creation of innovative quantum algorithms. − The predominant focus of algorithmic development encompasses a diverse array of topics such as spectroscopy, − electronic structure, − vibrational structure, quantum many-body problems, , and open quantum dynamics. , Notably, the application of these algorithms to address scattering problems has received limited attention thus far. This study aims to bridge this gap by developing a quantum algorithm specifically designed to estimate scattering matrix elements for both elastic and inelastic collision processes.…”

Simulation of Chemical Reactions on a Quantum Computer

Quantum computing and chemistry