Bayesian three-body modeling of 22C reveals it is bound by less than 0.35 MeV with s-wave dominance and highlights the need for final-state interactions in dipole strength calculations, with ~50% uncertainties.
Scalable neural decoder for topological surface codes.Physical Review Letters, 128(8):080505
9 Pith papers cite this work. Polarity classification is still indexing.
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Coupled dissipative time crystals show chaotic synchronization with positive Lyapunov exponents and high Pearson correlations in the classical limit, plus analogous staggered-to-uniform crossovers and GUE statistics in quantum trajectories.
A new setup integrates coherent 2D electronic spectroscopy with confocal back focal plane imaging for angle-resolved and spatially co-localized measurements on 2D materials.
CASSCF-NEVPT2 calculations map the excited-state fine structure, pseudo-Jahn-Teller distortion, singlet-triplet crossings, and pressure dependence of the V_B^- center in hBN.
Reformulation of many-body dispersion via a correlation matrix yields pairwise force decomposition and unified energy-force-Hessian expressions.
UrQMD simulations show pion source radii increasing with collision energy and decreasing with transverse mass, with the Levy index alpha falling at higher energies.
A topical review unifying statistical mechanics, tensor network, and AI approaches to approximate maximum likelihood decoding for quantum error correction codes.
A review of thermal modifications to light and heavy hadron properties via imaginary-time formalism, effective field theories, unitarized approaches, and lattice QCD, with links to heavy-ion phenomenology.
A review of how quantum information science is expected to provide new tools and insights for nuclear and high-energy physics phenomenology and quantum simulations.
citing papers explorer
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Uncertainty quantified three-body model applied to the two-neutron halo $^{22}$C
Bayesian three-body modeling of 22C reveals it is bound by less than 0.35 MeV with s-wave dominance and highlights the need for final-state interactions in dipole strength calculations, with ~50% uncertainties.
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Classical and quantum chaotic synchronization in coupled dissipative time crystals
Coupled dissipative time crystals show chaotic synchronization with positive Lyapunov exponents and high Pearson correlations in the classical limit, plus analogous staggered-to-uniform crossovers and GUE statistics in quantum trajectories.
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Coherent two-dimensional electronic spectroscopy integrated with confocal back focal plane microscopy
A new setup integrates coherent 2D electronic spectroscopy with confocal back focal plane imaging for angle-resolved and spatially co-localized measurements on 2D materials.
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An extended ab initio theory of the V$_{\text{B}}^-$ center in hBN: excited states, Jahn-Teller distortion, and pressure dependence
CASSCF-NEVPT2 calculations map the excited-state fine structure, pseudo-Jahn-Teller distortion, singlet-triplet crossings, and pressure dependence of the V_B^- center in hBN.
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Structured force reformulation of many-body dispersion: towards effective atom--atom decomposition and surrogate modeling
Reformulation of many-body dispersion via a correlation matrix yields pairwise force decomposition and unified energy-force-Hessian expressions.
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Pion emission source shape in UrQMD Au+Au collisions at STAR energies
UrQMD simulations show pion source radii increasing with collision energy and decreasing with transverse mass, with the Levy index alpha falling at higher energies.
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Maximum Likelihood Decoding of Quantum Error Correction Codes
A topical review unifying statistical mechanics, tensor network, and AI approaches to approximate maximum likelihood decoding for quantum error correction codes.
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Hadron properties at finite temperature
A review of thermal modifications to light and heavy hadron properties via imaginary-time formalism, effective field theories, unitarized approaches, and lattice QCD, with links to heavy-ion phenomenology.
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Quantum Complexity and New Directions in Nuclear Physics and High-Energy Physics Phenomenology
A review of how quantum information science is expected to provide new tools and insights for nuclear and high-energy physics phenomenology and quantum simulations.