Spectroscopy of K 52

M. Enciu; A. Obertelli; P. Doornenbal; M. Heinz; T. Miyagi; F. Nowacki; K. Ogata; A. Poves; A. Schwenk; K. Yoshida; N. L. Achouri; H. Baba; F. Browne; D. Calvet; F. Château; S. Chen; N. Chiga; A. Corsi; M. L. Cortés; A. Delbart; J. M. Gheller; A. Giganon; A. Gillibert; C. Hilaire; T. Isobe; T. Kobayashi; Y. Kubota; V. Lapoux; H. N. Liu; T. Motobayashi; I. Murray; H. Otsu; V. Panin; N. Paul; W. Rodriguez; H. Sakurai; M. Sasano; D. Steppenbeck; L. Stuhl; Y. L. Sun; Y. Togano; T. Uesaka; K. Wimmer; K. Yoneda; O. Aktas; T. Aumann; L. X. Chung; F. Flavigny; S. Franchoo; I. Gašparić; R. B. Gerst; J. Gibelin; K. I. Hahn; D. Kim; Y. Kondo; P. Koseoglou; J. Lee; C. Lehr; P. J. Li; B. D. Linh; T. Lokotko; M. Maccormick; K. Moschner; T. Nakamura; S. Y. Park; D. Rossi; E. Sahin; P. A. Söderström; D. Sohler; S. Takeuchi; H. Toernqvist; V. Vaquero; V. Wagner; S. Wang; V. Werner; X. Xu; H. Yamada; D. Yan; Z. Yang; M. Yasuda; L. Zanetti

doi:10.1103/PhysRevC.110.064301

Spectroscopy of K 52

M. Enciu, A. Obertelli, P. Doornenbal, M. Heinz, T. Miyagi, F. Nowacki, K. Ogata, A. Poves, A. Schwenk, K. Yoshida, N. L. Achouri, H. Baba, F. Browne, D. Calvet, F. Château, S. Chen, N. Chiga, A. Corsi, M. L. Cortés, A. DelbartJ. M. Gheller, A. Giganon, A. Gillibert, C. Hilaire, T. Isobe, T. Kobayashi, Y. Kubota, V. Lapoux, H. N. Liu, T. Motobayashi, I. Murray, H. Otsu, V. Panin, N. Paul, W. Rodriguez, H. Sakurai, M. Sasano, D. Steppenbeck, L. Stuhl, Y. L. Sun, Y. Togano, T. Uesaka, K. Wimmer, K. Yoneda, O. Aktas, T. Aumann, L. X. Chung, F. Flavigny, S. Franchoo, I. Gašparić, R. B. Gerst, J. Gibelin, K. I. Hahn, D. Kim, Y. Kondo, P. Koseoglou, J. Lee, C. Lehr, P. J. Li, B. D. Linh, T. Lokotko, M. Maccormick, K. Moschner, T. Nakamura, S. Y. Park, D. Rossi, E. Sahin, P. A. Söderström, D. Sohler, S. Takeuchi, H. Toernqvist, V. Vaquero, V. Wagner, S. Wang, V. Werner, X. Xu, H. Yamada, D. Yan, Z. Yang, M. Yasuda, L. Zanetti

Departamento de Física

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Resumen

The first spectroscopy of K52 was investigated via in-beam γ-ray spectroscopy at the RIKEN Radioactive Isotope Beam Factory after one-proton and one-neutron knockout from Ca53 and K53 beams impinging on a 15-cm liquid hydrogen target at ≈230 MeV/nucleon. The energy level scheme of K52 was built using single γ and γ-γ coincidence spectra. The spins and parities of the excited states were established based on momentum distributions of the fragment after the knockout reaction and based on exclusive cross sections. The results were compared to state-of-the-art shell model calculations with the SDPF-Umod interaction and ab initio in-medium similarity renormalization group calculations with chiral effective field theory nucleon-nucleon and three-nucleon forces.

Idioma original	Inglés
Número de artículo	064301
Publicación	Physical Review C
Volumen	110
N.º	6
DOI	https://doi.org/10.1103/PhysRevC.110.064301
Estado	Publicada - dic. 2024

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Enciu, M., Obertelli, A., Doornenbal, P., Heinz, M., Miyagi, T., Nowacki, F., Ogata, K., Poves, A., Schwenk, A., Yoshida, K., Achouri, N. L., Baba, H., Browne, F., Calvet, D., Château, F., Chen, S., Chiga, N., Corsi, A., Cortés, M. L., ... Zanetti, L. (2024). Spectroscopy of K 52. Physical Review C, 110(6), Artículo 064301. https://doi.org/10.1103/PhysRevC.110.064301

@article{f3582b7af16d4d0e91a7ec0182da157c,

title = "Spectroscopy of K 52",

abstract = "The first spectroscopy of K52 was investigated via in-beam γ-ray spectroscopy at the RIKEN Radioactive Isotope Beam Factory after one-proton and one-neutron knockout from Ca53 and K53 beams impinging on a 15-cm liquid hydrogen target at ≈230 MeV/nucleon. The energy level scheme of K52 was built using single γ and γ-γ coincidence spectra. The spins and parities of the excited states were established based on momentum distributions of the fragment after the knockout reaction and based on exclusive cross sections. The results were compared to state-of-the-art shell model calculations with the SDPF-Umod interaction and ab initio in-medium similarity renormalization group calculations with chiral effective field theory nucleon-nucleon and three-nucleon forces.",

author = "M. Enciu and A. Obertelli and P. Doornenbal and M. Heinz and T. Miyagi and F. Nowacki and K. Ogata and A. Poves and A. Schwenk and K. Yoshida and Achouri, {N. L.} and H. Baba and F. Browne and D. Calvet and F. Ch{\^a}teau and S. Chen and N. Chiga and A. Corsi and Cort{\'e}s, {M. L.} and A. Delbart and Gheller, {J. M.} and A. Giganon and A. Gillibert and C. Hilaire and T. Isobe and T. Kobayashi and Y. Kubota and V. Lapoux and Liu, {H. N.} and T. Motobayashi and I. Murray and H. Otsu and V. Panin and N. Paul and W. Rodriguez and H. Sakurai and M. Sasano and D. Steppenbeck and L. Stuhl and Sun, {Y. L.} and Y. Togano and T. Uesaka and K. Wimmer and K. Yoneda and O. Aktas and T. Aumann and Chung, {L. X.} and F. Flavigny and S. Franchoo and I. Ga{\v s}pari{\'c} and Gerst, {R. B.} and J. Gibelin and Hahn, {K. I.} and D. Kim and Y. Kondo and P. Koseoglou and J. Lee and C. Lehr and Li, {P. J.} and Linh, {B. D.} and T. Lokotko and M. Maccormick and K. Moschner and T. Nakamura and Park, {S. Y.} and D. Rossi and E. Sahin and S{\"o}derstr{\"o}m, {P. A.} and D. Sohler and S. Takeuchi and H. Toernqvist and V. Vaquero and V. Wagner and S. Wang and V. Werner and X. Xu and H. Yamada and D. Yan and Z. Yang and M. Yasuda and L. Zanetti",

note = "Publisher Copyright: {\textcopyright} 2024 American Physical Society.",

year = "2024",

month = dec,

doi = "10.1103/PhysRevC.110.064301",

language = "English",

volume = "110",

journal = "Physical Review C",

issn = "2469-9985",

publisher = "American Physical Society",

number = "6",

}

Enciu, M, Obertelli, A, Doornenbal, P, Heinz, M, Miyagi, T, Nowacki, F, Ogata, K, Poves, A, Schwenk, A, Yoshida, K, Achouri, NL, Baba, H, Browne, F, Calvet, D, Château, F, Chen, S, Chiga, N, Corsi, A, Cortés, ML, Delbart, A, Gheller, JM, Giganon, A, Gillibert, A, Hilaire, C, Isobe, T, Kobayashi, T, Kubota, Y, Lapoux, V, Liu, HN, Motobayashi, T, Murray, I, Otsu, H, Panin, V, Paul, N, Rodriguez, W, Sakurai, H, Sasano, M, Steppenbeck, D, Stuhl, L, Sun, YL, Togano, Y, Uesaka, T, Wimmer, K, Yoneda, K, Aktas, O, Aumann, T, Chung, LX, Flavigny, F, Franchoo, S, Gašparić, I, Gerst, RB, Gibelin, J, Hahn, KI, Kim, D, Kondo, Y, Koseoglou, P, Lee, J, Lehr, C, Li, PJ, Linh, BD, Lokotko, T, Maccormick, M, Moschner, K, Nakamura, T, Park, SY, Rossi, D, Sahin, E, Söderström, PA, Sohler, D, Takeuchi, S, Toernqvist, H, Vaquero, V, Wagner, V, Wang, S, Werner, V, Xu, X, Yamada, H, Yan, D, Yang, Z, Yasuda, M & Zanetti, L 2024, 'Spectroscopy of K 52', Physical Review C, vol. 110, n.º 6, 064301. https://doi.org/10.1103/PhysRevC.110.064301

TY - JOUR

T1 - Spectroscopy of K 52

AU - Enciu, M.

AU - Obertelli, A.

AU - Doornenbal, P.

AU - Heinz, M.

AU - Miyagi, T.

AU - Nowacki, F.

AU - Ogata, K.

AU - Poves, A.

AU - Schwenk, A.

AU - Yoshida, K.

AU - Achouri, N. L.

AU - Baba, H.

AU - Browne, F.

AU - Calvet, D.

AU - Château, F.

AU - Chen, S.

AU - Chiga, N.

AU - Corsi, A.

AU - Cortés, M. L.

AU - Delbart, A.

AU - Gheller, J. M.

AU - Giganon, A.

AU - Gillibert, A.

AU - Hilaire, C.

AU - Isobe, T.

AU - Kobayashi, T.

AU - Kubota, Y.

AU - Lapoux, V.

AU - Liu, H. N.

AU - Motobayashi, T.

AU - Murray, I.

AU - Otsu, H.

AU - Panin, V.

AU - Paul, N.

AU - Rodriguez, W.

AU - Sakurai, H.

AU - Sasano, M.

AU - Steppenbeck, D.

AU - Stuhl, L.

AU - Sun, Y. L.

AU - Togano, Y.

AU - Uesaka, T.

AU - Wimmer, K.

AU - Yoneda, K.

AU - Aktas, O.

AU - Aumann, T.

AU - Chung, L. X.

AU - Flavigny, F.

AU - Franchoo, S.

AU - Gašparić, I.

AU - Gerst, R. B.

AU - Gibelin, J.

AU - Hahn, K. I.

AU - Kim, D.

AU - Kondo, Y.

AU - Koseoglou, P.

AU - Lee, J.

AU - Lehr, C.

AU - Li, P. J.

AU - Linh, B. D.

AU - Lokotko, T.

AU - Maccormick, M.

AU - Moschner, K.

AU - Nakamura, T.

AU - Park, S. Y.

AU - Rossi, D.

AU - Sahin, E.

AU - Söderström, P. A.

AU - Sohler, D.

AU - Takeuchi, S.

AU - Toernqvist, H.

AU - Vaquero, V.

AU - Wagner, V.

AU - Wang, S.

AU - Werner, V.

AU - Xu, X.

AU - Yamada, H.

AU - Yan, D.

AU - Yang, Z.

AU - Yasuda, M.

AU - Zanetti, L.

PY - 2024/12

Y1 - 2024/12

N2 - The first spectroscopy of K52 was investigated via in-beam γ-ray spectroscopy at the RIKEN Radioactive Isotope Beam Factory after one-proton and one-neutron knockout from Ca53 and K53 beams impinging on a 15-cm liquid hydrogen target at ≈230 MeV/nucleon. The energy level scheme of K52 was built using single γ and γ-γ coincidence spectra. The spins and parities of the excited states were established based on momentum distributions of the fragment after the knockout reaction and based on exclusive cross sections. The results were compared to state-of-the-art shell model calculations with the SDPF-Umod interaction and ab initio in-medium similarity renormalization group calculations with chiral effective field theory nucleon-nucleon and three-nucleon forces.

AB - The first spectroscopy of K52 was investigated via in-beam γ-ray spectroscopy at the RIKEN Radioactive Isotope Beam Factory after one-proton and one-neutron knockout from Ca53 and K53 beams impinging on a 15-cm liquid hydrogen target at ≈230 MeV/nucleon. The energy level scheme of K52 was built using single γ and γ-γ coincidence spectra. The spins and parities of the excited states were established based on momentum distributions of the fragment after the knockout reaction and based on exclusive cross sections. The results were compared to state-of-the-art shell model calculations with the SDPF-Umod interaction and ab initio in-medium similarity renormalization group calculations with chiral effective field theory nucleon-nucleon and three-nucleon forces.

UR - http://www.scopus.com/inward/record.url?scp=85211480503&partnerID=8YFLogxK

U2 - 10.1103/PhysRevC.110.064301

DO - 10.1103/PhysRevC.110.064301

M3 - Article

AN - SCOPUS:85211480503

SN - 2469-9985

VL - 110

JO - Physical Review C

JF - Physical Review C

IS - 6

M1 - 064301

ER -

Spectroscopy of K 52

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