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of the project] * Background of the recruitment and description of the project The missions of RIKEN Center for Quantum Computing (RQC) are to deepen our understandings of quantum mechanics and quantum information
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, investigates new combinatorial and geometric structures underlying quantum field theory. The group seeks to elucidate how scattering amplitudes and quantum observables arise from total positivity and positive
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of interest include Potential Theory, Harmonic Analysis, Functional Analysis, Calculus of Variations and Optimal Control, Optimization, Mathematical Biosciences and Quantum Biology. Some of the current research
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, including electrons and quasiparticles, as well as wave phenomena in metamaterials. Using primarily analytical approaches based on model systems, we investigate a wide range of physical systems—from quantum
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properties of phase transitions involving magnetism, elasticity, dielectricity, etc. by applying and developing computational methods such as classical and quantum Monte Carlo simulations, molecular dynamics
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of the recruitment and description of the project] * Background of the recruitment and description of the project Conduct research on the fundamental physical properties of semiconductor materials for quantum sensing
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of semiconductor nanoparticles (colloidal quantum dots), free control of their dimensional assembly, emergent photoelectronic properties, and application to optoelectronic devices are studied. We precisely control
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symmetries arising in quantum field theories. More specifically, it focuses on the representation theory of infinite-dimensional Lie algebras such as Kac–Moody algebras, and more generally, on vertex algebras
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study their structures and dynamics using multi-scale simulations, which include all-atom molecular dynamics (MD) simulations, coarse-grained MD simulations, quantum mechanics/molecular mechanics (QM/MM
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KAKENHI (Grant-in-Aid for Scientific Research), Scientific Research (S) project entitled “Studies of quantum-interactions including multi-body forces by precise measurements of hypernuclear binding energies