Full quark-gluon vertex dynamics in the gap equation yields real poles with opposite-sign residues and a 350 MeV constituent mass, unlike prior approximations that produce complex poles.
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Resolution of a long- standing discrepancy in the 17O+12C fusion excitation function
Canonical reference. 83% of citing Pith papers cite this work as background.
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UNVERDICTED 22representative citing papers
Constituent quark model calculations of electromagnetic transitions for 1P, 1D, 2S, and 2P states in flavor anti-triplet charmed baryons yield branching ratios to identify specific resonances.
Unpolarized GPDs and GTMDs at small x with non-zero skewness are expressed via the dipole amplitude N and odderon O with modified rapidity Y = ln min{1/|x|, 1/|ξ|}.
Using basis light-front quantization wave functions, the authors calculate GPDs for proton components at low resolution scale and obtain results qualitatively similar to but smaller than the GUMP1.0 global extraction.
Bosonic Fock encoding in a cavity, driven by SNAP and displacement pulses, produces neutrino oscillation probabilities that match theoretical predictions for two- and three-flavor cases.
Using experimental beta and gamma values in a non-unique coordinate system aligned with principal axes produces the most probable nuclear shapes and makes cluster formation visible in light nuclei.
A modification to the Laplace transform of the quark propagator is introduced in a nonlocal model to align confining and deconfining regimes, allowing computation of meson screening masses over a wide temperature range and pole masses up to the transition.
PISTA achieves 800 keV FWHM excitation-energy resolution and 1.1% mass resolution for target-like recoils in 238U + 12C reactions.
CI-SM calculations supply new E1 photon strength function predictions for light nuclei that are fed into UHECR propagation simulations for a 40Ca source.
Reports an experimental measurement of 19,20O(p,n)19,20F reactions in inverse kinematics with the MuSIC@Indiana active target, enabling extraction of the proton fusion cross section via background rejection.
Bayesian inference on observational data yields shear viscosity timescale τ_s=(4.99^{+0.49}_{-0.52})×10^8 T^{5/3} s and bulk viscosity timescale for two-layer hybrid stars, giving frequency minima of 451.87 Hz and 517.47 Hz that explain stability of pulsars including XTE J0929-314.
Applies Lorentz-boosted form factors via Licht-Pagnamenta and Mitra-Kumari formalisms to link nuclear boosts with cluster configurations and resolve light nuclei charge radius discrepancies.
Collins asymmetries for pion-in-jet production at the EIC are calculated in LO and Weizsacker-Williams approximations, showing quark-channel dominance and clearer access to sea-quark transversity.
Astrophysical S-factor data constrain variations in the electromagnetic fine-structure constant to |δ α/α| ≤ 0.0002 in radiative alpha capture on carbon-12.
A new elementary operator for kaon photoproduction on nucleons and nuclei, built from 43 resonances and fitted to data, then cast in Pauli space for nonrelativistic nuclear applications.
Model predictions for coherent and incoherent rho and J/psi photoproduction cross sections in O-O and Ne-Ne ultraperipheral collisions, comparing Woods-Saxon and cluster-based nuclear shapes.
EPOS3 simulations of 200 GeV Au+Au collisions find no clear transverse-mass scaling of Lévy scale parameters across pions, kaons and protons, with proton power-law exponents higher than those for mesons.
Review of heavy-ion collision constraints on the nuclear EoS that produce neutron-star pressure profiles consistent with gravitational-wave and pulsar observations up to 2.5 n_sat.
Review of experimental evidence and theoretical models for dineutron correlations in two-neutron halo nuclei and candidates beyond the drip line, including discussion of tetraneutron states.
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.
Glueballs acquire mass from the interactions of color charges carried by their constituent gluons, providing a unique laboratory for studying mass generation in quantum chromodynamics.
A review of random phase approximation, Lorentz integral transform coupled-cluster, projected generator-coordinate, and self-consistent Green's functions methods for nuclear giant resonances, with benchmark comparisons on 16O and 40Ca.
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Performance of the Particle-Identification Silicon-Telescope Array Coupled with the VAMOS++ Magnetic Spectrometer
PISTA achieves 800 keV FWHM excitation-energy resolution and 1.1% mass resolution for target-like recoils in 238U + 12C reactions.