The 29th International Nuclear Physics Conference (INPC 2025)

Name: The 29th International Nuclear Physics Conference (INPC 2025)
Start: 2025-05-25T08:00:00+09:00
End: 2025-05-30T20:00:00+09:00
Location: Daejeon Convention Center (DCC)

25–30 May 2025

Daejeon Convention Center (DCC)

Asia/Seoul timezone

INPC 2025 Secretariat

Nuclear Lattice EFT Simulation with Woods-Saxon Potentials

27 May 2025, 10:10

15m

Room 11: 1F #108 (DCC)

Room 11: 1F #108

DCC

Contributed Oral Presentation Nuclear Structure Parallel Session

Myungkuk Kim (CENS/IBS)

The experimental exploration of the neutron dripline is challenging. Currently, neon is the heaviest nucleus for which the neutron dripline has been measured experimentally. Predictions for the neutron dripline of nuclei heavier than neon largely rely on theoretical models. However, these predictions are often highly model-dependent. Nuclear Lattice Effective Field Theory is an ab initio approach used to explore quantum many-body systems. In this talk, we will discuss the nuclear properties of oxygen isotopes near the neutron dripline, using the Woods-Saxon potential in Nuclear Lattice Effective Field Theory.

Myungkuk Kim (CENS/IBS)

Dean Lee (Michigan State University) Young-Ho Song (RISP, IBS) Youngman Kim Yuanzhuo Ma

Presentation_ID501_KIM.pdf

The 29th International Nuclear Physics Conference (INPC 2025)

INPC 2025 Secretariat

Nuclear Lattice EFT Simulation with Woods-Saxon Potentials

Room 11: 1F #108

DCC

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