The 1st IReNA-Ukakuren Joint Workshop “Advancing Professional Development in Nuclear Astrophysics and Beyond”

Session

Poster Session

31 Aug 2023, 13:50

Large Seminar Room (Subaru Building) (NAOJ (National Astronomical Observatory of Japan))

Conveners

Poster Session: Afternoon - 2

• Shun Iimura (Rikkyo University)

29. Feasibility studies to detect r-process nuclear emissions from the binary-neutron-star merger remnants with the HEX-P satellite

Mr Motogami Yugo (Saitama Univ.)

31/08/2023, 13:50

Poster

The r-process nucleosynthesis site in the Universe is one of the important astrophysical questions. The r-process site should be a neutron-rich environment, and the binary neutron-star mergers (NSMs) are considered to be the most promising site. Nuclear gamma rays through the decay of unstable nuclei will provide direct evidence of r-process synthesis. However, the gamma-ray radiation is...

28. Search for r-process nuclear gamma-rays from binary neutron-star merger remnants with the gamma-ray satellite INTEGRAL/SPI

Mr Hayato Ohsumi (Saitama Univ.)

31/08/2023, 13:55

Poster

One of the most promising candidates in the universe for the r-process r-process, which is the only sites that can provide elements heavier than ${}^{209}\mathrm{Bi}$ are the binary neutron-star mergers (NSMs).The post-merger remnant becomes optically thin in a few weeks to months, and gamma-rays from the decay of r-process elements are observable in the MeV energy band. The presence of...

18. Direct measurement of the cross section for 102Pd(p,g)103Ag reaction in the p-process

Fulong Liu (Center for Nuclear Study, the University of Tokyo)

31/08/2023, 14:00

Poster

The study of the p-process is of paramount importance in unraveling the origin of heavy elements in the universe. To describe the entire p-nuclei nucleosynthesis process, a comprehensive reaction network involving over ten thousand nuclear reactions is required, and accurate measurements of some key reaction cross sections are essential for determining reaction rates. 102Pd is one of the more...

21. Direct measurement of the ${}^{26}$Si($\alpha$, p)${}^{29}$P reaction for the nucleosynthesis in the X-ray bursts

Kodai Okawa

31/08/2023, 14:05

Poster

In the X-ray bursts, the $\alpha$p-process, that consists of alternating ($\alpha$, p) and (p, $\gamma$) reactions, is considered to have a great impact on the light curve. However, most of the important reactions have not been understood experimentally because of technical difficulties. The ${}^{26}$Si($\alpha$, p)${}^{29}$P reaction rate is one of the $\alpha$p-process reactions and it is...

20. Direct measurement of astrophysical S(E) for the 9Be(p,a)6Li and 9Be(p,d)8Be reactions at low energy

Mr Qian Zhang (Center for Nuclear Study, The University of Tokyo)

31/08/2023, 14:10

Poster

The p-9Be reactions play a key role in accurate prediction of primordial abundance of beryllium, and its abundance can be used to exquisitely probe the nucleosynthesis and mixing mechanism of stars. In the present work, astrophysical S(E) factors of the 9Be(p,d)8Be and 9Be(p,α)6Li reactions have been obtained from thick-target yield Yield(Ei) for proton energies from 18 to 100 keV. A full...

16. High-dispersion spectroscopic observations of r-process elements including thorium in solar metallicity and mildly-metal-poor stars

Kurumi Furutsuka (University of Hyogo)

31/08/2023, 14:15

Poster

The origin of the r-process was unknown for many years, but in 2017, neutron-star merger (NSM) was observed by gravitational waves (Abbott et al., 2017). The NSM is found to be the origin of the r-process by photometric and spectroscopic observation. However, NSM alone is unable to explain the origin of the r-process. For example, investigation of stellar abundances has found stars with high...

12. Follow-up of bright very metal-poor star candidates discovered by narrow-band survey

Hiroko Okada (University of Hyogo)

31/08/2023, 14:20

Poster

Chemical abundance of metal-poor stars is a clue to understand the chemical evolution of the early Universe. However, the metal-poor stars discovered by previous surveys are faint and it is difficult to measure their abundance of many elements with high precision. Therefore, we performed a photometric survey using the wide-field CMOS camera (Tomo-e Gozen Camera) on the Kiso Schmidt telescope...

30. Understanding nucleosynthesis by Gamma-Ray and AntiMatter Survey (GRAMS)

Shota Arai (The University of Tokyo)

31/08/2023, 14:25

Poster

The r-process plays a crucial role in understanding the origin of heavy elements. The gravitational wave event GW170817, resulting from a neutron star (NS) merger, is believed to be the source of heavy elements through the r-process (Tanaka et al., 2017). However, direct evidence for the r-process has not been observed yet, which enables us to make a quantitative study of nucleosynthesis, such...

31. Cryogenic hydrogen gas target for a measurement of neutron inelastic scattering in ${}^{12}\mathrm{C}$

Shumpei Yamazaki (CYRIC Tohoku University)

31/08/2023, 14:30

Poster

The triple alpha process is an essential reaction in nucleosynthesis. In a hot and dense environment, the reaction rate can be enhanced by neutron upscattering process. In that process, the Hoyle state in ${}^{12}\mathrm{C}$ decays into the bound states by giving the excitation energy to neutrons instead of radiation decay. We plan to measure a cross section of the inverse reaction in order to...

51. CHARGE-EXCHANGE REACTIONS IN CONJUNCTION WITH THE OSLO METHOD

Neshad Deva Pathirana (Facility for Rare Isotope Beams & Michigan State University)

31/08/2023, 14:35

Poster

Charge-Exchange (CE) reactions are an important tool for studying the spin-isopin response of nuclei. They can be utilized to obtain information about interactions mediated by the weak nuclear force, such as β and electron capture decay. Using the proportionality between Gamow-Teller strength (B(GT)) and the CE differential cross section, B(GT) strength distributions can be extracted...

52. An Update on the Commissioning of SECAR

Mackenzie Smith (Michigan State University)

31/08/2023, 14:40

Poster

The Separator for Capture Reactions (SECAR) located in Reaccelerator Hall 3 (ReA3) at the Facility for Rare Isotope Beams (FRIB) is a recoil separator designed to study the direct reaction rates of capture reactions in inverse kinematics. Such reactions are crucial to the understanding of many stellar phenomena such as type I X-ray bursts and supernovae. This poster presentation will be an...

60. Measurement of the gamma Decay Probability of the Hoyle State

Kohsuke Sakanashi (Department of Physics, Osaka University)

31/08/2023, 14:45

Poster

61. Measurement of neutron inelastic scattering of the Hoyle state to estimate the triple-alpha reaction rate in high-density environments

Tatsuya Furuno (Department of Physics, Osaka University)

31/08/2023, 14:50

Poster

64. Supernova Nucleosynthesis: Radioactive Nuclear Reactions and Neutrino-Mass Hierarchy

Xingqun Yao (Beihang Univ. & National Astronomical Observatory of Japan)

31/08/2023, 14:55

65. Developing "1D+" simulation of Core-collapse supernovae

Shunsuke Sasaki (NAOJ,The Graduate University for Advanced Studies, SOKENDAI)

31/08/2023, 15:00

Poster

53. Open Poster Session

31/08/2023, 15:05

Poster

62. GENSOGAKUSHO×GENSOGOUSEI: Illustrations of nucleosynthesis by personification characters

Nobuya Nishimura (RIKEN)

Poster

4. Machine Learning Refinements to Metallicity-Dependent Isotopic Abundances

Haoxuan Sun

Poster

The project aims to use machine learning algorithms to fit the free parameters of an isotopic scaling model to elemental observations. The processes considered are massive star nucleosynthesis, Type Ia SNe, the s-process, the r-process, and p-isotope production. The analysis on the successful fits seeks to minimize the reduced chi squared between the model and the data. Based upon the...