☆ 4.7 Article

Towards a heavy diquark effective theory for weak decays of doubly heavy baryons

EUROPEAN PHYSICAL JOURNAL C (2020)

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EUROPEAN PHYSICAL JOURNAL C

卷 80, 期 5, 页码 -

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SPRINGER

DOI: 10.1140/epjc/s10052-020-7949-z

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Physics, Particles & Fields

资金

Natural Science Foundation of China [11735010, 11911530088]
Natural Science Foundation of Shanghai [15DZ2272100]
DFG
NSFC [CRC 110]
Chinese Academy of Sciences (CAS) President's International Fellowship Initiative (PIFI) [2015VMA076]
VolkswagenStiftung [93562]

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We construct a leading-order effective field theory for both scalar and axial-vector heavy diquarks, and consider its power expansion in the heavy diquark limit. By assuming the transition from QCD to diquark effective theory, we derive the most general form for the effective diquark transition currents based on the heavy diquark symmetry. The short-distance coefficients between QCD and heavy diquark effective field theory are also obtained by a tree level matching. With the effective currents in the heavy diquark limit, we perform a reduction of the form factors for semi-leptonic decays of doubly heavy baryons, and find that only one nonperturbative function is remaining. It is shown that this soft function can be related to the Isgur-Wise function in heavy meson transitions. As a phenomenological application, we take a single pole structure for the reduced form factor, and use it to calculate the semi-leptonic decay widths of doubly heavy baryons. The obtained results are consistent with others given in the literature, and can be tested in the future.

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Article Physics, Nuclear

Hyperon-nucleon interaction in chiral effective field theory at next-to-next-to-leading order

Johann Haidenbauer, Ulf-G. Meissner, Andreas Nogga, Hoai Le

Summary: A hyperon-nucleon potential for the S = -1 sector up to third order in the chiral expansion is introduced, considering both the SU(3) flavor symmetry and explicit SU(3) symmetry breaking. An innovative regularization scheme is used, leading to an excellent description of scattering data and the analysis of new data from J-PARC. Results for hypertriton and A = 4 hyper-nuclear separation energies are presented, along with an uncertainty estimate for selected observables in the hyperon-nucleon system.

EUROPEAN PHYSICAL JOURNAL A (2023)

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Article Physics, Nuclear

The electromagnetic Sigma-to-Lambda transition form factors with coupled-channel effects in the space-like region

Yong-Hui Lin, Hans-Werner Hammer, Ulf-G. Meissner

Summary: Using dispersion theory, the Sigma-to-Lambda transition form factors in electromagnetic interactions are calculated considering the pion electromagnetic form factor, SU(3) chiral perturbation theory, the baryon decuplet, and the pi pi- K coupled-channel effect. The electric form factor is significantly affected by the inclusion of the K channel, while the magnetic form factor is minimally affected. The uncertainties in the three-flavor chiral perturbation theory are estimated using a bootstrap sampling method.

EUROPEAN PHYSICAL JOURNAL A (2023)

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Article Physics, Particles & Fields

PccN states in a unitarized coupled-channel approach

Chao-Wei Shen, Yong-hui Lin, Ulf-G. Meissner

Summary: Using an effective Lagrangian with heavy quark spin symmetry, this study investigates the coupled-channel dynamics of the doubly charmed systems D-(*) Sigma((*))(c). The potential considered includes exchanges of pseudoscalar and vector mesons in the t-channel. By applying the first iterated solution of the N/ D method, several S-wave bound states with isospin I = 1/2 are discovered. These states correspond to open-charm partners of the hidden charm pentaquarks P-psi(N) observed by the LHCb Collaboration.

EUROPEAN PHYSICAL JOURNAL C (2023)

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Article Physics, Particles & Fields

Definition of gravitational local spatial densities for spin-0 and spin-1/2 systems

J. Yu. Panteleeva, E. Epelbaum, J. Gegelia, U-G Meissner

Summary: Using spherically symmetric sharply localized wave packets, we determine the details of defining the spatial densities corresponding to the gravitational form factors of spin-0 and spin-1/2 systems. The expressions for the spatial densities are provided in the frames with both zero and non-zero expectation values of the momentum operator.

EUROPEAN PHYSICAL JOURNAL C (2023)

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Article Physics, Nuclear

Magnetic dipole moments as a strong signature for α-clustering in even-even self-conjugate nuclei

Gianluca Stellin, Karl-Heinz Speidel, Ulf-G Meissner

Summary: We investigate the magnetic dipole moments in even-even self-conjugate nuclei, finding that nuclei with the same characteristic have gyromagnetic factors close to +0.5, which can be explained by alpha-cluster collective excitations. For N = Z + 1 isotopes, the alpha-cluster structure has little contribution to the negative gyromagnetic factors, while adding another neutron restores the original factors. Additionally, discretization effects on magnetic dipole moments are analyzed using a macroscopic alpha-cluster model on a finite lattice.

EUROPEAN PHYSICAL JOURNAL A (2022)

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