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Frontiers in Nuclear Lattice EFT: From Ab Initio Nuclear Structure to Reactions

1–3 Mar 2025
Baiyan Building
Asia/Shanghai timezone

Nuclear Lattice EFT Simulation with Woods-Saxon Potential

2 Mar 2025, 09:45
45m
19 Floor 1917 Room (Baiyan Building)

19 Floor 1917 Room

Baiyan Building

No. 238, North 4th Ring Central Road Auxiliary Road, Haidian District, Beijing

Speaker

Dr Myungkuk Kim (CENS/IBS)

Description

Experimental exploration of neutron dripline is very challenging, and neon is the heaviest nucleus measured neutron dripline experimentally. Prediction of dripline heavier nuclei than neon is currently depends on theoretical approaches. However, there exist strong model-dependence in the prediction of the dripline in theoretical approach. Nuclear Lattice Effective Field Theory is one of the ab initio approach to explore the quantum many-body systems. In this talk, I will give a talk about the nuclear properties of Oxygen isotopes under the Woods-Saxon potential which is semi ab initio near the neutron dripline using lattice Monte Carlo simulations.

Primary authors

Dr Myungkuk Kim (CENS/IBS) Young-Ho Song (IRIS, IBS) Yuanzhuo Ma (Peking University) Youngman Kim (RISP/IBS) Dean Lee (Michigan State University)

Presentation materials

MKim_Frontier_NLEFT.pdf
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