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Excitation of the isoscalar giant monopole resonance using ${}^{6}{Li}$ inelastic scattering

https://doi.org/10.1103/PhysRevC.111.014308

Arroyo, J.; Garg, U.; Akimune, H.; Berg, G_P_A; Cuong, D_C; Fujiwara, M.; Harakeh, M_N; Itoh, M.; Kawabata, T.; Kawase, K.; et al (January 2025, Physical Review C)
Optical model potentials for deuteron scattering off ${}^{24}{Mg},$ ${}^{28}{Si},$ ${}^{58}{Ni},$ ${}^{90}{Zr},$ ${}^{116}{Sn},$ and ${}^{208}{Pb}$ at $\approx 100 MeV / nucleon$

https://doi.org/10.1103/PhysRevC.110.044314

Patel, D.; Cuong, D_C; Howard, K_B; Garg, U.; Khoa, Dao_T; Akimune, H.; Berg, G_P_A; Fujiwara, M.; Harakeh, M_N; Itoh, M.; et al (October 2024, Physical Review C)
Effect of ground-state deformation on the isoscalar giant monopole resonance and the first observation of overtones of the isoscalar giant quadrupole resonance in rare-Earth Nd isotopes

https://doi.org/10.1016/j.physletb.2024.138852

Abdullah, M; Bagchi, S; Harakeh, MN; Akimune, H; Das, D; Doi, T; Donaldson, LM; Fujikawa, Y; Fujiwara, M; Furuno, T; et al (August 2024, Physics Letters B)

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A Ground‐Based Instrument Suite for Integrated High‐Time Resolution Measurements of Pulsating Aurora With Arase

https://doi.org/10.1029/2023JA031527

Hosokawa, K.; Oyama, S.‐I.; Ogawa, Y.; Miyoshi, Y.; Kurita, S.; Teramoto, M.; Nozawa, S.; Kawabata, T.; Kawamura, Y.; Tanaka, Y.‐M.; et al (August 2023, Journal of Geophysical Research: Space Physics)

Abstract A specialized ground‐based system has been developed for simultaneous observations of pulsating aurora (PsA) and related magnetospheric phenomena with the Arase satellite. The instrument suite is composed of (a) six 100 Hz sampling high‐speed all‐sky imagers (ASIs), (b) two 10 Hz sampling monochromatic ASIs observing 427.8 and 844.6 nm auroral emissions, (c) a 20 Hz sampling fluxgate magnetometer. The 100 Hz ASIs were deployed in four stations in Scandinavia and two stations in Alaska, which have been used for capturing the main pulsations and quasi 3 Hz internal modulations of PsA at the same time. The 10 Hz sampling monochromatic ASIs have been operative in Tromsø, Norway with the 20 Hz sampling magnetometer. Combination of these multiple instruments with the European Incoherent SCATter (EISCAT) radar enables us to detect the low‐altitude ionization due to energetic electron precipitation during PsA and further to reveal the ionospheric electrodynamics behind PsA. Since the launch of the Arase satellite, the data from these instruments have been examined in comparison with the wave and particle data from the satellite in the magnetosphere. In the future, the system can be utilized not only for studies of PsA but also for other classes of aurora in close collaboration with the planned EISCAT_3D project.
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PANDORA Project for the study of photonuclear reactions below $$A=60$$

https://doi.org/10.1140/epja/s10050-023-01081-w

Tamii, A; Pellegri, L; Söderström, P-A; Allard, D; Goriely, S; Inakura, T; Khan, E; Kido, E; Kimura, M; Litvinova, E; et al (September 2023, The European Physical Journal A)
Borge, Maria (Ed.)
Abstract Photonuclear reactions of light nuclei below a mass of$$A=60$$ $A = 60$ are planned to be studied experimentally and theoretically with the PANDORA (Photo-Absorption of Nuclei and Decay Observation for Reactions in Astrophysics) project. Two experimental methods, virtual photon excitation by proton scattering and real photo absorption by a high-brilliance$$\gamma $$ $γ$ -ray beam produced by laser Compton scattering, will be applied to measure the photoabsorption cross sections and decay branching ratio of each decay channel as a function of the photon energy. Several nuclear models, e.g. anti-symmetrized molecular dynamics, mean-field and beyond-mean-field models, a large-scale shell model, and ab initio models, will be employed to predict the photonuclear reactions. The uncertainty in the model predictions will be evaluated based on the discrepancies between the model predictions and experimental data. The data and predictions will be implemented in the general reaction calculation code, . The results will be applied to the simulation of the photo-disintegration process of ultra-high-energy cosmic rays in inter-galactic propagation.
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Compressional-mode resonances in the molybdenum isotopes: Emergence of softness in open-shell nuclei near A = 90

https://doi.org/10.1016/j.physletb.2020.135608

Howard, K.B.; Garg, U.; Itoh, M.; Akimune, H.; Fujiwara, M.; Furuno, T.; Gupta, Y.K.; Harakeh, M.N.; Inaba, K.; Ishibashi, Y.; et al (August 2020, Physics Letters B)

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Compression-mode resonances in the calcium isotopes and implications for the asymmetry term in nuclear incompressibility

https://doi.org/10.1016/j.physletb.2019.135185

Howard, K.B.; Garg, U.; Itoh, M.; Akimune, H.; Bagchi, S.; Doi, T.; Fujikawa, Y.; Fujiwara, M.; Furuno, T.; Harakeh, M.N.; et al (February 2020, Physics Letters B)

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Isoscalar giant monopole, dipole, and quadrupole resonances in ${}^{90, 92}{Zr}$ and ${}^{92}{Mo}$

https://doi.org/10.1103/PhysRevC.97.064323

Gupta, Y. K.; Howard, K. B.; Garg, U.; Matta, J. T.; Şenyiğit, M.; Itoh, M.; Ando, S.; Aoki, T.; Uchiyama, A.; Adachi, S.; et al (June 2018, Physical Review C)
Magic Nature of Neutrons in ${}^{54}{Ca}$ : First Mass Measurements of ${}^{55 - 57}{Ca}$

https://doi.org/10.1103/PhysRevLett.121.022506

Michimasa, S.; Kobayashi, M.; Kiyokawa, Y.; Ota, S.; Ahn, D. S.; Baba, H.; Berg, G. P.; Dozono, M.; Fukuda, N.; Furuno, T.; et al (July 2018, Physical Review Letters)

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