26-31 July 2021
Mexico City
Mexico/General timezone
HADRON 2021 is over. Thanks for making it a success!
- hadron2021@nucleares.unam.mx
Contact information
Baryon spectroscopy-5
Place
Location: Mexico City
Date:
29 Jul 11:15 - 13:15
Conveners
-
- Dr. Toledo, Genaro (Instituto de Fisica, UNAM)
Timetable | Contribution List
Displaying 5
contributions
out of
5
The LHCb experiment collected the world's largest sample of charmed hadrons during LHC Run 1 and Run 2. With this data set, LHCb is currently providing the world's most precise measurements of properties and production of known charmed baryons, as well as discovering many previously unobserved states. The latest results from the LHCb Collaboration on charmed baryons are presented.
Presented by Zhihao XU
on
29/7/2021
at
12:00
Charmed baryons are interesting objects with a plausible light diquark subcluster structure. The Belle experiment provides an ideal setup to study charmed baryons having more than $10^{6}$ reconstructed $\Lambda_{c}^{+}\to pK^{-}\pi^{+}$ decays. In this talk, recent results on charmed baryon spectroscopy are presented. These include the spin and parity determination of $\Xi_{c}(2970)$, radiative d
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Presented by Li JIN
on
29/7/2021
at
16:15
The weak decay of the charmed baryon ground state is interesting from several counts. First, it is an "hyperon laboratory", as decays proceed mainly via the $c \to s$ transition. Second, the decay width is affected by QCD corrections, which are not well established theoretically. The Belle experiment is an ideal place to study charmed baryons with more than $10^{6}$ $\Lambda_{c}^{+} \to pK^{-}\pi^
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Presented by Yang LI
on
29/7/2021
at
11:40
I present a complete study of the S- and P-wave baryon states with a single heavy quark content, either charm or bottom, where I show their mass spectra, and provide the radiative and strong decays allowed by the selection rules. In the end, a very good agreement between the present work and the current experimental data can be observed.
Presented by Dr. Emmanuel ORTIZ PACHECO
on
29/7/2021
at
12:20
We provide a unified method to calculate and also the results of the Transverse Momentum Dependent parton distribution functions (TMDs) of both the electron and the proton within the Basis Light-front Quantization (BLFQ) framework using the non-perturbative light-front wave functions. This method can be extended to meson TMDs, as well as the investigation of spin asymmetries.
Presented by Mr. Zhi HU
on
29/7/2021
at
12:40