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16–21 Aug 2019
Guilin Bravo Hotel, Guilin, China
Asia/Shanghai timezone

Uncertainty Quantification of Hypertriton Binding Energy

21 Aug 2019, 11:30
20m
Duxiu Room (Guilin Bravo Hotel, Guilin, China)

Duxiu Room

Guilin Bravo Hotel, Guilin, China

14 South Ronghu Road, Xiangshan, Guilin 541002, Guangxi, China
Parallel Session 7: Hadrons in hot and nuclear environment including hypernuclei Session 7: Hadrons in hot and nuclear environment including hypernuclei

Speaker

Ms Thiri Yadanar Htun (School of Physics, Suranaree University of Technology, Thailand)

Description

We perform the Hypernuclear No-Core Shell Model (NCSM) calculations to study the uncertainty of hypertriton binding energy. In particular, we employ a family of nucleon-nucleon (NN) nuclear interactions at next-to-next-to-leading-order (NNLO) in chiral effective field theory to approximate the uncertainty of the nuclear interaction in combination with a fixed leading-order (LO) chiral hyperon-nucleon (YN). The three-body calculations are performed in the relative Jacobi coordinates Harmonic-Oscillator (HO) basis in model spaces up to Nmax=70 MeV to obtain the well-converged energy. As a result, we provide a prediction for the model uncertainties of the hypertriton system by propagating the quantified uncertainties of the nuclear interaction. Based on our finding of small sensitivity of hypertriton binding energy to the uncertainty of NN interaction, we claim that this bound-state observable can be used in a fitting procedure to constrain the YN interaction.

Primary author

Ms Thiri Yadanar Htun (School of Physics, Suranaree University of Technology, Thailand)

Co-authors

Prof. Christian Forssén (Department of Physics, Chalmers University of Technology, Sweden) Dr Daniel Gazda (Chalmers University of Technology and Physics Institute, Czech Republic) Prof. Yupeng Yan (School of Physics, Suranaree University of Technology, Thailand)

Presentation materials

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