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NSR database version of April 26, 2024.

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2024AC01      Phys.Rev. C 109, 014911 (2024)

S.Acharya, D.Adamova, G.Aglieri Rinella, M.Agnello, N.Agrawal, Z.Ahammed, S.Ahmad, S.U.Ahn, I.Ahuja, A.Akindinov, M.Al-Turany, D.Aleksandrov, B.Alessandro, H.M.Alfanda, R.Alfaro Molina, B.Ali, A.Alici, N.Alizadehvandchali, A.Alkin, J.Alme, G.Alocco, T.Alt, A.R.Altamura, I.Altsybeev, J.R.Alvarado, M.N.Anaam, C.Andrei, N.Andreou, A.Andronic, V.Anguelov, F.Antinori, P.Antonioli, N.Apadula, L.Aphecetche, H.Appelshauser, C.Arata, S.Arcelli, M.Aresti, R.Arnaldi, J.G.M.C.A.Arneiro, I.C.Arsene, M.Arslandok, A.Augustinus, R.Averbeck, M.D.Azmi, H.Baba, A.Badala, J.Bae, Y.W.Baek, X.Bai, R.Bailhache, Y.Bailung, A.Balbino, A.Baldisseri, B.Balis, D.Banerjee, Z.Banoo, R.Barbera, F.Barile, L.Barioglio, M.Barlou, B.Barman, G.G.Barnafoldi, L.S.Barnby, V.Barret, L.Barreto, C.Bartels, K.Barth, E.Bartsch, N.Bastid, S.Basu, G.Batigne, D.Battistini, B.Batyunya, D.Bauri, J.L.Bazo Alba, I.G.Bearden, C.Beattie, P.Becht, D.Behera, I.Belikov, A.D.C.Bell Hechavarria, F.Bellini, R.Bellwied, S.Belokurova, Y.A.V.Beltran, G.Bencedi, S.Beole, Y.Berdnikov, A.Berdnikova, L.Bergmann, M.G.Besoiu, L.Betev, P.P.Bhaduri, A.Bhasin, M.A.Bhat, B.Bhattacharjee, L.Bianchi, N.Bianchi, J.Bielcik, J.Bielcikova, J.Biernat, A.P.Bigot, A.Bilandzic, G.Biro, S.Biswas, N.Bize, J.T.Blair, D.Blau, M.B.Blidaru, N.Bluhme, C.Blume, G.Boca, F.Bock, T.Bodova, A.Bogdanov, S.Boi, J.Bok, L.Boldizsar, M.Bombara, P.M.Bond, G.Bonomi, H.Borel, A.Borissov, A.G.Borquez Carcamo, H.Bossi, E.Botta, Y.E.M.Bouziani, L.Bratrud, P.Braun-Munzinger, M.Bregant, M.Broz, G.E.Bruno, M.D.Buckland, D.Budnikov, H.Buesching, S.Bufalino, P.Buhler, N.Burmasov, Z.Buthelezi, A.Bylinkin, S.A.Bysiak, M.Cai, H.Caines, A.Caliva, E.Calvo Villar, J.M.M.Camacho, P.Camerini, F.D.M.Canedo, S.L.Cantway, M.Carabas, A.A.Carballo, F.Carnesecchi, R.Caron, L.A.D.Carvalho, J.Castillo Castellanos, F.Catalano, C.Ceballos Sanchez, I.Chakaberia, P.Chakraborty, S.Chandra, S.Chapeland, M.Chartier, S.Chattopadhyay, S.Chattopadhyay, T.Cheng, C.Cheshkov, B.Cheynis, V.Chibante Barroso, D.D.Chinellato, E.S.Chizzali, J.Cho, S.Cho, P.Chochula, D.Choudhury, P.Christakoglou, C.H.Christensen, P.Christiansen, T.Chujo, M.Ciacco, C.Cicalo, F.Cindolo, M.R.Ciupek, G.Clai, F.Colamaria, J.S.Colburn, D.Colella, M.Colocci, M.Concas, G.Conesa Balbastre, Z.Conesa del Valle, G.Contin, J.G.Contreras, M.L.Coquet, P.Cortese, M.R.Cosentino, F.Costa, S.Costanza, C.Cot, J.Crkovska, P.Crochet, R.Cruz-Torres, P.Cui, A.Dainese, M.C.Danisch, A.Danu, P.Das, P.Das, S.Das, A.R.Dash, S.Dash, A.De Caro, G.de Cataldo, J.de Cuveland, A.De Falco, D.De Gruttola, N.De Marco, C.De Martin, S.De Pasquale, R.Deb, R.Del Grande, L.Dello Stritto, W.Deng, P.Dhankher, D.Di Bari, A.Di Mauro, B.Diab, R.A.Diaz, T.Dietel, Y.Ding, J.Ditzel, R.Divia, D.U.Dixit, O.Djuvsland, U.Dmitrieva, A.Dobrin, B.Donigus, J.M.Dubinski, A.Dubla, S.Dudi, P.Dupieux, M.Durkac, N.Dzalaiova, T.M.Eder, R.J.Ehlers, F.Eisenhut, R.Ejima, D.Elia, B.Erazmus, F.Ercolessi, B.Espagnon, G.Eulisse, D.Evans, S.Evdokimov, L.Fabbietti, M.Faggin, J.Faivre, F.Fan, W.Fan, A.Fantoni, M.Fasel, P.Fecchio, A.Feliciello, G.Feofilov, A.Fernandez Tellez, L.Ferrandi, M.B.Ferrer, A.Ferrero, C.Ferrero, A.Ferretti, V.J.G.Feuillard, V.Filova, D.Finogeev, F.M.Fionda, E.Flatland, F.Flor, A.N.Flores, S.Foertsch, I.Fokin, S.Fokin, E.Fragiacomo, E.Frajna, U.Fuchs, N.Funicello, C.Furget, A.Furs, T.Fusayasu, J.J.Gaardhoje, M.Gagliardi, A.M.Gago, T.Gahlaut, C.D.Galvan, D.R.Gangadharan, P.Ganoti, C.Garabatos, T.Garcia Chavez, E.Garcia-Solis, C.Gargiulo, P.Gasik, A.Gautam, M.B.Gay Ducati, M.Germain, A.Ghimouz, C.Ghosh, M.Giacalone, G.Gioachin, P.Giubellino, P.Giubilato, A.M.C.Glaenzer, P.Glassel, E.Glimos, D.J.Q.Goh, V.Gonzalez, M.Gorgon, K.Goswami, S.Gotovac, V.Grabski, L.K.Graczykowski, E.Grecka, A.Grelli, C.Grigoras, V.Grigoriev, S.Grigoryan, F.Grosa, J.F.Grosse-Oetringhaus, R.Grosso, D.Grund, N.A.Grunwald, G.G.Guardiano, R.Guernane, M.Guilbaud, K.Gulbrandsen, T.Gundem, T.Gunji, W.Guo, A.Gupta, R.Gupta, R.Gupta, K.Gwizdziel, L.Gyulai, C.Hadjidakis, F.U.Haider, S.Haidlova, H.Hamagaki, A.Hamdi, Y.Han, B.G.Hanley, R.Hannigan, J.Hansen, M.R.Haque, J.W.Harris, A.Harton, H.Hassan, D.Hatzifotiadou, P.Hauer, L.B.Havener, S.T.Heckel, E.Hellbar, H.Helstrup, M.Hemmer, T.Herman, G.Herrera Corral, F.Herrmann, S.Herrmann, K.F.Hetland, B.Heybeck, H.Hillemanns, B.Hippolyte, F.W.Hoffmann, B.Hofman, G.H.Hong, M.Horst, A.Horzyk, Y.Hou, P.Hristov, C.Hughes, P.Huhn, L.M.Huhta, T.J.Humanic, A.Hutson, D.Hutter, R.Ilkaev, H.Ilyas, M.Inaba, G.M.Innocenti, M.Ippolitov, A.Isakov, T.Isidori, M.S.Islam, M.Ivanov, M.Ivanov, V.Ivanov, K.E.Iversen, M.Jablonski, B.Jacak, N.Jacazio, P.M.Jacobs, S.Jadlovska, J.Jadlovsky, S.Jaelani, C.Jahnke, M.J.Jakubowska, M.A.Janik, T.Janson, S.Ji, S.Jia, A.A.P.Jimenez, F.Jonas, D.M.Jones, J.M.Jowett, J.Jung, M.Jung, A.Junique, A.Jusko, M.J.Kabus, J.Kaewjai, P.Kalinak, A.S.Kalteyer, A.Kalweit, V.Kaplin, A.Karasu Uysal, D.Karatovic, O.Karavichev, T.Karavicheva, P.Karczmarczyk, E.Karpechev, U.Kebschull, R.Keidel, D.L.D.Keijdener, M.Keil, B.Ketzer, S.S.Khade, A.M.Khan, S.Khan, A.Khanzadeev, Y.Kharlov, A.Khatun, A.Khuntia, B.Kileng, B.Kim, C.Kim, D.J.Kim, E.J.Kim, J.Kim, J.S.Kim, J.Kim, J.Kim, M.Kim, S.Kim, T.Kim, K.Kimura, S.Kirsch, I.Kisel, S.Kiselev, A.Kisiel, J.P.Kitowski, J.L.Klay, J.Klein, S.Klein, C.Klein-Bosing, M.Kleiner, T.Klemenz, A.Kluge, A.G.Knospe, C.Kobdaj, T.Kollegger, A.Kondratyev, N.Kondratyeva, E.Kondratyuk, J.Konig, S.A.Konigstorfer, P.J.Konopka, G.Kornakov, M.Korwieser, S.D.Koryciak, A.Kotliarov, V.Kovalenko, M.Kowalski, V.Kozhuharov, I.Kralik, A.Kravcakova, L.Krcal, M.Krivda, F.Krizek, K.Krizkova Gajdosova, M.Kroesen, M.Kruger, D.M.Krupova, E.Kryshen, V.Kucera, C.Kuhn, P.G.Kuijer, T.Kumaoka, D.Kumar, L.Kumar, N.Kumar, S.Kumar, S.Kundu, P.Kurashvili, A.Kurepin, A.B.Kurepin, A.Kuryakin, S.Kushpil, M.J.Kweon, Y.Kwon, S.L.La Pointe, P.La Rocca, A.Lakrathok, M.Lamanna, A.R.Landou, R.Langoy, P.Larionov, E.Laudi, L.Lautner, R.Lavicka, R.Lea, H.Lee, I.Legrand, G.Legras, J.Lehrbach, T.M.Lelek, R.C.Lemmon, I.Leon Monzon, M.M.Lesch, E.D.Lesser, P.Levai, X.Li, J.Lien, R.Lietava, I.Likmeta, B.Lim, S.H.Lim, V.Lindenstruth, A.Lindner, C.Lippmann, D.H.Liu, J.Liu, G.S.S.Liveraro, I.M.Lofnes, C.Loizides, S.Lokos, J.Lomker, P.Loncar, X.Lopez, E.Lopez Torres, P.Lu, F.V.Lugo, J.R.Luhder, M.Lunardon, G.Luparello, Y.G.Ma, M.Mager, A.Maire, E.M.Majerz, M.V.Makariev, M.Malaev, G.Malfattore, N.M.Malik, Q.W.Malik, S.K.Malik, L.Malinina, D.Mallick, N.Mallick, G.Mandaglio, S.K.Mandal, V.Manko, F.Manso, V.Manzari, Y.Mao, R.W.Marcjan, G.V.Margagliotti, A.Margotti, A.Marin, C.Markert, P.Martinengo, M.I.Martinez, G.Martinez Garcia, M.P.P.Martins, S.Masciocchi, M.Masera, A.Masoni, L.Massacrier, O.Massen, A.Mastroserio, O.Matonoha, S.Mattiazzo, A.Matyja, C.Mayer, A.L.Mazuecos, F.Mazzaschi, M.Mazzilli, J.E.Mdhluli, Y.Melikyan, A.Menchaca-Rocha, J.E.M.Mendez, E.Meninno, A.S.Menon, M.Meres, S.Mhlanga, Y.Miake, L.Micheletti, D.L.Mihaylov, K.Mikhaylov, A.N.Mishra, D.Miskowiec, A.Modak, B.Mohanty, M.Mohisin Khan, M.A.Molander, S.Monira, C.Mordasini, D.A.Moreira De Godoy, I.Morozov, A.Morsch, T.Mrnjavac, V.Muccifora, S.Muhuri, J.D.Mulligan, A.Mulliri, M.G.Munhoz, R.H.Munzer, H.Murakami, S.Murray, L.Musa, J.Musinsky, J.W.Myrcha, B.Naik, A.I.Nambrath, B.K.Nandi, R.Nania, E.Nappi, A.F.Nassirpour, A.Nath, C.Nattrass, M.N.Naydenov, A.Neagu, A.Negru, L.Nellen, R.Nepeivoda, S.Nese, G.Neskovic, N.Nicassio, B.S.Nielsen, E.G.Nielsen, S.Nikolaev, S.Nikulin, V.Nikulin, F.Noferini, S.Noh, P.Nomokonov, J.Norman, N.Novitzky, P.Nowakowski, A.Nyanin, J.Nystrand, M.Ogino, S.Oh, A.Ohlson, V.A.Okorokov, J.Oleniacz, A.C.Oliveira Da Silva, A.Onnerstad, C.Oppedisano, A.Ortiz Velasquez, J.Otwinowski, M.Oya, K.Oyama, Y.Pachmayer, S.Padhan, D.Pagano, G.Paic, S.Paisano-Guzman, A.Palasciano, S.Panebianco, H.Park, H.Park, J.Park, J.E.Parkkila, Y.Patley, R.N.Patra, B.Paul, H.Pei, T.Peitzmann, X.Peng, M.Pennisi, S.Perciballi, D.Peresunko, G.M.Perez, Y.Pestov, V.Petrov, M.Petrovici, R.P.Pezzi, S.Piano, M.Pikna, P.Pillot, O.Pinazza, L.Pinsky, C.Pinto, S.Pisano, M.Ploskon, M.Planinic, F.Pliquett, M.G.Poghosyan, B.Polichtchouk, S.Politano, N.Poljak, A.Pop, S.Porteboeuf-Houssais, V.Pozdniakov, I.Y.Pozos, K.K.Pradhan, S.K.Prasad, S.Prasad, R.Preghenella, F.Prino, C.A.Pruneau, I.Pshenichnov, M.Puccio, S.Pucillo, Z.Pugelova, S.Qiu, L.Quaglia, S.Ragoni, A.Rai, A.Rakotozafindrabe, L.Ramello, F.Rami, T.A.Rancien, M.Rasa, S.S.Rasanen, R.Rath, M.P.Rauch, I.Ravasenga, K.F.Read, C.Reckziegel, A.R.Redelbach, K.Redlich, C.A.Reetz, H.D.Regules-Medel, A.Rehman, F.Reidt, H.A.Reme-Ness, Z.Rescakova, K.Reygers, A.Riabov, V.Riabov, R.Ricci, M.Richter, A.A.Riedel, W.Riegler, A.G.Riffero, C.Ristea, M.V.Rodriguez, M.Rodriguez Cahuantzi, S.A.Rodriguez Ramirez, K.Roed, R.Rogalev, E.Rogochaya, T.S.Rogoschinski, D.Rohr, D.Rohrich, P.F.Rojas, S.Rojas Torres, P.S.Rokita, G.Romanenko, F.Ronchetti, A.Rosano, E.D.Rosas, K.Roslon, A.Rossi, A.Roy, S.Roy, N.Rubini, D.Ruggiano, R.Rui, P.G.Russek, R.Russo, A.Rustamov, E.Ryabinkin, Y.Ryabov, A.Rybicki, H.Rytkonen, J.Ryu, W.Rzesa, O.A.M.Saarimaki, S.Sadhu, S.Sadovsky, J.Saetre, K.Safarik, P.Saha, S.K.Saha, S.Saha, B.Sahoo, B.Sahoo, R.Sahoo, S.Sahoo, D.Sahu, P.K.Sahu, J.Saini, K.Sajdakova, S.Sakai, M.P.Salvan, S.Sambyal, D.Samitz, I.Sanna, T.B.Saramela, P.Sarma, V.Sarritzu, V.M.Sarti, M.H.P.Sas, S.Sawan, J.Schambach, H.S.Scheid, C.Schiaua, R.Schicker, F.Schlepper, A.Schmah, C.Schmidt, H.R.Schmidt, M.O.Schmidt, M.Schmidt, N.V.Schmidt, A.R.Schmier, R.Schotter, A.Schroter, J.Schukraft, K.Schweda, G.Scioli, E.Scomparin, J.E.Seger, Y.Sekiguchi, D.Sekihata, M.Selina, I.Selyuzhenkov, S.Senyukov, J.J.Seo, D.Serebryakov, L.Serksnyte, A.Sevcenco, T.J.Shaba, A.Shabetai, R.Shahoyan, A.Shangaraev, A.Sharma, B.Sharma, D.Sharma, H.Sharma, M.Sharma, S.Sharma, S.Sharma, U.Sharma, A.Shatat, O.Sheibani, K.Shigaki, M.Shimomura, J.Shin, S.Shirinkin, Q.Shou, Y.Sibiriak, S.Siddhanta, T.Siemiarczuk, T.F.Silva, D.Silvermyr, T.Simantathammakul, R.Simeonov, B.Singh, B.Singh, K.Singh, R.Singh, R.Singh, R.Singh, S.Singh, V.K.Singh, V.Singhal, T.Sinha, B.Sitar, M.Sitta, T.B.Skaali, G.Skorodumovs, M.Slupecki, N.Smirnov, R.J.M.Snellings, E.H.Solheim, J.Song, C.Sonnabend, F.Soramel, A.B.Soto-hernandez, R.Spijkers, I.Sputowska, J.Staa, J.Stachel, I.Stan, P.J.Steffanic, S.F.Stiefelmaier, D.Stocco, I.Storehaug, P.Stratmann, S.Strazzi, A.Sturniolo, C.P.Stylianidis, A.A.P.Suaide, C.Suire, M.Sukhanov, M.Suljic, R.Sultanov, V.Sumberia, S.Sumowidagdo, S.Swain, I.Szarka, M.Szymkowski, S.F.Taghavi, G.Taillepied, J.Takahashi, G.J.Tambave, S.Tang, Z.Tang, J.D.Tapia Takaki, N.Tapus, L.A.Tarasovicova, M.G.Tarzila, G.F.Tassielli, A.Tauro, A.Tavira Garcia, G.Tejeda Munoz, A.Telesca, L.Terlizzi, C.Terrevoli, S.Thakur, D.Thomas, A.Tikhonov, N.Tiltmann, A.R.Timmins, M.Tkacik, T.Tkacik, A.Toia, R.Tokumoto, K.Tomohiro, N.Topilskaya, M.Toppi, T.Tork, P.V.Torres, V.V.Torres, A.G.Torres Ramos, A.Trifiro, A.S.Triolo, S.Tripathy, T.Tripathy, S.Trogolo, V.Trubnikov, W.H.Trzaska, T.P.Trzcinski, A.Tumkin, R.Turrisi, T.S.Tveter, K.Ullaland, B.Ulukutlu, A.Uras, G.L.Usai, M.Vala, N.Valle, L.V.R.van Doremalen, M.van Leeuwen, C.A.van Veen, R.J.G.van Weelden, P.Vande Vyvre, D.Varga, Z.Varga, M.Vasileiou, A.Vasiliev, O.Vazquez Doce, O.Vazquez Rueda, V.Vechernin, E.Vercellin, S.Vergara Limon, R.Verma, L.Vermunt, R.Vertesi, M.Verweij, L.Vickovic, Z.Vilakazi, O.Villalobos Baillie, A.Villani, A.Vinogradov, T.Virgili, M.M.O.Virta, V.Vislavicius, A.Vodopyanov, B.Volkel, M.A.Volkl, K.Voloshin, S.A.Voloshin, G.Volpe, B.von Haller, I.Vorobyev, N.Vozniuk, J.Vrlakova, J.Wan, C.Wang, D.Wang, Y.Wang, Y.Wang, A.Wegrzynek, F.T.Weiglhofer, S.C.Wenzel, J.P.Wessels, J.Wiechula, J.Wikne, G.Wilk, J.Wilkinson, G.A.Willems, B.Windelband, M.Winn, J.R.Wright, W.Wu, Y.Wu, R.Xu, A.Yadav, A.K.Yadav, S.Yalcin, Y.Yamaguchi, S.Yang, S.Yano, Z.Yin, I.-K.Yoo, J.H.Yoon, H.Yu, S.Yuan, A.Yuncu, V.Zaccolo, C.Zampolli, F.Zanone, N.Zardoshti, A.Zarochentsev, P.Zavada, N.Zaviyalov, M.Zhalov, B.Zhang, C.Zhang, L.Zhang, S.Zhang, X.Zhang, Y.Zhang, Z.Zhang, M.Zhao, V.Zherebchevskii, Y.Zhi, D.Zhou, Y.Zhou, J.Zhu, Y.Zhu, S.C.Zugravel, N.Zurlo

System-size dependence of the hadronic rescattering effect at energies available at the CERN Large Hadron Collider

doi: 10.1103/PhysRevC.109.014911
Citations: PlumX Metrics

2024AN02      Phys.Lett. B 849, 138422 (2024)

J.-L.An, K.-Y.Zhang, Q.Lu, Sh.-Y.Zhong, Sh.-Sh.Zhang

A unified description of the halo nucleus ³⁷Mg from microscopic structure to reaction observables

NUCLEAR REACTIONS ¹²C(²⁰Mg, X), (²¹Mg, X), (²²Mg, X), (²³Mg, X), (²⁴Mg, X), (²⁵Mg, X), (²⁶Mg, X), (²⁷Mg, X), (²⁸Mg, X), (²⁹Mg, X), (³⁰Mg, X), (³¹Mg, X), (³²Mg, X), (³³Mg, X), (³⁴Mg, X), (³⁵Mg, X), (³⁶Mg, X), (³⁷Mg, X), E=240 MeV/nucleon; calculated σ using the deformed relativistic Hartree-Bogoliubov theory in continuum (DRHBc). ³⁷Mg; deduced halo evidence of ³⁷Mg with the Glauber model.

doi: 10.1016/j.physletb.2023.138422
Citations: PlumX Metrics

2024BO08      Universe 10, 187 (2024)

E.Bozzo, L.Amati, W.Baumgartner, T.-Ch.Chang, B.Cordier, N.De Angelis, A.Doi, M.Feroci, C.Froning, J.Gaskin, A.Goldstein, D.Gotz, J.E.Grove, S.Guiriec, M.Hernanz, C.M.Hui, P.Jenke, D.Kocevski, M.Kole, Ch.Kouveliotou, Th.Maccarone, M.L.McConnell, H.Matsuhara, P.O'Brien, N.Produit, P.S.Ray, P.Roming, A.Santangelo, M.Seiffert, H.Sun, A.van der Horst, P.Veres, J.Wei, N.White, C.Wilson-Hodge, D.Yonetoku, W.Yuan, Sh.-N.Zhang

Future Perspectives for Gamma-ray Burst Detection from Space

doi: 10.3390/universe10040187
Citations: PlumX Metrics

2024GA07      Phys.Rev. C 109, 024307 (2024)

T.J.Gao, J.-B.Lu, Y.Ma, Y.Zhang, S.Q.Zhang, H.D.Wang, J.-Q.Liu, P.-Y.Yang, Zh.Ren, Ch.-Q.Li, Q.B.Chen, Z.C.Gao, J.Li, K.Y.Ma, G.Dong

Evidence for possible multiple chiral doublet bands with identical configuration in the odd-odd nucleus ¹²⁶Cs

doi: 10.1103/PhysRevC.109.024307
Citations: PlumX Metrics

2024GU06      Phys.Rev.Lett. 132, 092501 (2024)

R.J.Guo, S.Y.Wang, C.Liu, R.A.Bark, J.Meng, S.Q.Zhang, B.Qi, A.Rohilla, Z.H.Li, H.Hua, Q.B.Chen, H.Jia, X.Lu, S.Wang, D.P.Sun, X.C.Han, W.Z.Xu, E.H.Wang, H.F.Bai, M.Li, P.Jones, J.F.Sharpey-Schafer, M.Wiedeking, O.Shirinda, C.P.Brits, K.L.Malatji, T.Dinoko, J.Ndayishimye, S.Mthembu, S.Jongile, K.Sowazi, S.Kutlwano, T.D.Bucher, D.G.Roux, A.A.Netshiya, L.Mdletshe, S.Noncolela, W.Mtshali

Evidence for Chiral Wobbler in Nuclei

NUCLEAR REACTIONS ⁵⁸Ni(¹⁹F, n2p)⁷⁴Br, E=62 MeV; measured reaction products, Eγ, Iγ, γ-γ-coin.; deduced γ-ray energies, the angular distribution from oriented state (ADO) ratios and linear polarization values for the representative linking transitions between bands, level T_1/2, partial level scheme, J, π, B(E2), bands, one-phonon wobbling excitation built on the yrast band. Doppler-shift-attenuation method, the detector array AFRODITE.

doi: 10.1103/PhysRevLett.132.092501
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2024HA04      Appl.Radiat.Isot. 205, 111177 (2024)

Y.Han, Y.Qiao, Zh.Li, X.Han, Q.Wang, K.Fang, Sh.Zhang

Fission cross-section measurements for the ²³⁸U(n, f)^97m+gNb, ²³⁸U(n, f)^133gTe and ²³⁸U(n, f)^130gSb reactions induced by D-T neutrons

NUCLEAR REACTIONS ²³⁸U(n, F)⁹⁷Nb/¹³³Te/¹³⁰Sb, E ∼ 14 MeV; measured reaction products, Eγ, Iγ; deduced σ. Comparison with ENDF/B-VIII.0 and JEFF-3.3 libraries. The K-400 D-T neutron generator of the China Academy of Engineering Physics.

doi: 10.1016/j.apradiso.2024.111177
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2024WA11      Phys.Rev. C 109, 024912 (2024)

T.-T.Wang, Y.-G.Ma, S.Zhang

Calculation of momentum correlation functions between π, K, and p for several heavy-ion collision systems at √ s_NN=39 GeV

doi: 10.1103/PhysRevC.109.024912
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2024YA08      Phys.Rev.Lett. 132, 152502 (2024)

X.Yan, Zh.Cheng, A.Abdukerim, Z.Bo, W.Chen, X.Chen, Ch.Cheng, X.Cui, Y.Fan, D.Fang, Ch.Fu, M.Fu, L.Geng, K.Giboni, L.Gu, X.Guo, Ch.Han, K.Han, Ch.He, J.He, D.Huang, Y.Huang, J.Huang, Zh.Huang, R.Hou, Y.Hou, X.Ji, Y.Ju, Ch.Li, J.Li, M.Li, Sh.Li, T.Li, Q.Lin, J.Liu, X.Lu, C.Lu, L.Luo, Y.Luo, W.Ma, Y.Ma, Y.Mao, Y.Meng, X.Ning, B.Pang, N.Qi, Zh.Qian, X.Ren, N.Shaheed, X.Shang, X.Shao, G.Shen, L.Si, W.Sun, A.Tan, Y.Tao, A.Wang, M.Wang, Q.Wang, Sh.Wang, S.Wang, W.Wang, X.Wang, Zh.Wang, Y.Wei, M.Wu, W.Wu, J.Xia, M.Xiao, X.Xiao, P.Xie, B.Yan, J.Yang, Y.Yang, Y.Yao, Ch.Yu, Y.Yuan, Zh.Yuan, X.Zeng, D.Zhang, M.Zhang, P.Zhang, Sh.Zhang, Sh.Zhang, T.Zhang, W.Zhang, Y.Zhang, Y.Zhang, Y.Zhang, L.Zhao, Q.Zheng, J.Zhou, N.Zhou, X.Zhou, Y.Zhou, Y.Zhou, for the PandaX Collaboration

Searching for Two-Neutrino and Neutrinoless Double Beta Decay of ¹³⁴Xe with the PandaX-4T Experiment

RADIOACTIVITY ¹³⁴Xe(2β^-); measured decay products, Eβ, Iβ; deduced two-neutrino and neutrinoless T_1/2 limits. Comparison with available data. The cylindrical active volume PandaX-4T dual-phase TPC.

doi: 10.1103/PhysRevLett.132.152502
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2024ZH16      Eur.Phys.J. A 60, (2024)

Y.-X.Zhang, S.Zhang, Y.-G.Ma

Signatures of an α + core structure in ⁴⁴Ti + ⁴⁴Ti collisions at √ σ_NN = 5.02 TeV by a multiphase transport model

doi: 10.1140/epja/s10050-024-01290-x
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2023AN14      Sci. Rep. 13, 12657 (2023)

Z.An, W.Qiu, W.Jiang, G.Yang, X.Li, Z.Liao, Z.Zhuang, X.Zhang, S.Chen, C.Guo, E.Xiao, X.Fang, X.Li, H.Wang, X.Hu, Bi.Jiang, W.Shen, J.Wang, J.Ren, X.Ruan, D.Wang, S.-Y.Zhang, W.Luo, Z.Zhu, H.Lan, Z.Cao, X.Ma, Y.Liu, P.Wang, Y.Yang, P.Su, X.Deng, W.He, Y.Ma, C.Ma, Y.Wang, P.He, R.Tang, T.Zhou, J.Wang, H.Yi, Y.Zhang, Y.Chen, R.Fan, K.Gao, Q.Li, K.Sun, Z.Tan, M.Gu, H.Jing, J.Tang

Measurement of the ¹⁸¹Ta(n, γ) cross sections up to stellar s-process temperatures at the CSNS Back-n

NUCLEAR REACTIONS ¹⁸¹Ta(n, γ), E=0.001-800 keV; measured reaction products, En, In, TOF; deduced σ, resonance parameters using the R-Matrix code SAMMY, Maxwellian average cross sections (MACS). Comparison with available data. The back-streaming white neutron facility (Back-n) of China spallation neutron source (CSNS).

doi: 10.1038/s41598-023-39603-7
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2023BA40      Eur.Phys.J. A 59, 284 (2023); Erratum Eur.Phys.J. A 60, 23 (2024)

X.H.Bai, Z.Wei, K.Wu, S.Y.Zhang, P.Q.Zhang, Y.N.Han, M.Li, J.Y.Wang, Z.Y.Wei, Z.E.Yao, J.R.Wang, Y.Zhang

Physical design of a high-intensity compact D–D/D–T neutron generator based on the internal antenna RF ion source

NUCLEAR REACTIONS ^2,3H(d, n), E=200 keV; measured reaction products, En, In; deduced neutron yields.

doi: 10.1140/epja/s10050-023-01177-3
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2023CA20      Phys.Rev. C 108, 064906 (2023)

R.-X.Cao, S.Zhang, Y.-G.Ma

Effects of the α-cluster structure and the intrinsic momentum component of nuclei on the longitudinal asymmetry in relativistic heavy-ion collisions

doi: 10.1103/PhysRevC.108.064906
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2023DI02      Chin.Phys.C 47, 024105 (2023)

C.Ding, L.-G.Pang, S.Zhang, Y.-G.Ma

Signals of α clusters in ¹⁶O+¹⁶O collisions at the LHC from relativistic hydrodynamic simulations

NUCLEAR REACTIONS ¹⁶O(¹⁶O, X), E=7 TeV; analyzed available data from CERN LHC; deduced α cluster structures in oxygen using (3+1)D viscous hydrodynamic program, CLVisc.

doi: 10.1088/1674-1137/ac9fb8
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2023DU07      Chin.Phys.C 47, 074108 (2023)

X.-K.Du, P.Guo, X.-H.Wu, S.-Q.Zhang

Examination of machine learning for assessing physical effects: Learning the relativistic continuum mass table with kernel ridge regression

NUCLEAR STRUCTURE N<300; analyzed available data; deduced empirical proton-neutron interactions, odd-even mass differences, one- and two-neutron separation and binding energies extracted from the nuclear mass table obtained by the relativistic continuum Hartree-Bogoliubov theory. Comparison with available data.

doi: 10.1088/1674-1137/acc791
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2023FA04      Phys.Rev. C 107, 044904 (2023)

L.-M.Fang, Y.-G.Ma, S.Zhang

Simulation of collective flow of protons and deuterons in Au + Au collisions at E_beam with the isospin-dependent quantum molecular dynamics model

doi: 10.1103/PhysRevC.107.044904
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2023GU12      Phys.Rev. C 108, 014319 (2023)

P.Guo, C.Pan, Y.C.Zhao, X.K.Du, S.Q.Zhang

Prolate-shape dominance in atomic nuclei within the deformed relativistic Hartree-Bogoliubov theory in continuum

NUCLEAR STRUCTURE ^{134,136,138,140,142,144,146,148,150,152,154,156,158,160,162,164,166,168,170,172,174,178}Te, ^{136,138,140,142,144,146,148,150,152,154,156,158,160,162,164,166,168,170,172,174,178,180}Xe, ^{138,140,142,144,146,148,150,152,154,156,158,160,162,164,166,168,170,172,174,178,180,182}Ba; calculated quadrupole deformation, potential-energy curves, single-neutron energies, pairing correlations. Calculations with deformed relativistic Hartree-Bogoliubov theory in continuum (DRHBc).

doi: 10.1103/PhysRevC.108.014319
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2023HA40      Commun. Phys. 6, 220 (2023)

J.Han, Y.Ye, J.Lou, X.Yang, Q.Li, Z.Yang, Y.Yang, J.Wang, J.Xu, Y.Ge, H.Hua, Z.Li, B.Yang, Y.Liu, S.Bai, K.Ma, J.Chen, G.Li, Z.Hu, H.Yu, Z.Tan, L.Yang, S.Wang, L.Tao, W.Liu, Y.Jiang, J.Li, D.Wang, S.Huang, Y.Chen, W.L.Pu, K.Wei, J.Ma, H.Yang, P.Ma, S.Xu, Z.Bai, S.Jin, F.Duan, Y.Song, L.Hu, Y.Li, J.Li, S.Zhang, M.Huang, D.Wang, Z.Li

Nuclear linear-chain structure arises in carbon-14

RADIOACTIVITY ¹⁴C(α) [from ¹H(¹⁴C, ¹⁴C'), E=23 MeV/nucleon]; measured decay products, Eα, Iα. ¹⁴C; deduced Q-value, excitation energy spectra, resonant states in ¹⁴C, J, π, widths, σ(θ). Comparison with the antisymmetrized molecular dynamics (AMD) calculations. The Radioactive Ion Beam Line at the Heavy Ion Research Facility in Lanzhou (HIRFL-RIBLL1).

doi: 10.1038/s42005-023-01342-6
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2023LI03      Phys.Rev. C 107, 014302 (2023)

H.H.Li, Q.Yuan, J.G.Li, M.R.Xie, S.Zhang, Y.H.Zhang, X.X.Xu, N.Michel, F.R.Xu, W.Zuo

Investigation of isospin-symmetry breaking in mirror energy difference and nuclear mass with ab initio calculations

NUCLEAR STRUCTURE ^21,23Al, ²³Ne, ^21,22O, ^22,23Si, ²³F, ²⁷P, ²⁷Mg, ⁴⁶Ti, ⁴⁶V, ⁴⁶Cr; calculated levels, J, π. ^18,19Ne, ¹⁹Na, ^20,21Na, ^22,23,24,25Al, ²⁷Si, ²⁹S, ³³Ar; calculated mirror energy difference in the mirror nuclei states. A=17-75; calculated coefficient "b" of the isobaric multiplet mass equation. Ab initio valence-space in-medium similarity renormalization group (VS-IMSRG) method. Comparison to experimental data and AME2020.

doi: 10.1103/PhysRevC.107.014302
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2023LI05      Phys.Rev. C 107, 014307 (2023)

J.Lin, Y.K.Wang, C.Xu, Z.H.Li, H.Hua, S.Q.Zhang, D.W.Luo, H.Y.Wu, J.Meng, X.G.Wu, Y.Zheng, C.B.Li, T.X.Li, Z.Y.Huang, H.Cheng, C.Y.Guo, Z.X.Zhou, Z.Q.Chen, C.G.Wang

Possible coexistence of magnetic and antimagnetic rotations in ⁶¹Ni

NUCLEAR REACTIONS ⁵⁴Cr(¹¹B, 4n)⁶¹Ni, E=54 MeV; measured Eγ, Iγ, γγ-coin, γγ(θ). ⁶¹Ni; deduced levels, J, π, asymmetric angular distributions from oriented states (ADO), dipole and quadrupole bands structures, configurations, high-spin states. Study provides evidence for possible coexistence of magnetic and antimagnetic rotations in the region around A=60. Comparison with calculations using the microscopic tilted axis cranking covariant density functional theory (TAC-CDFT). Detector array consisted of 6 HPGe with BGO anti-Compton suppressors, 1 clover HPGe detector 2 planar HPGe detectors at HI-13 Tandem Accelerator of the China Institute of Atomic Energy (CIAE).

doi: 10.1103/PhysRevC.107.014307
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2023LI55      Phys.Lett. B 846, 138197 (2023)

J.G.Li, H.H.Li, S.Zhang, Y.M.Xing, W.Zuo

Double-magicity of proton drip-line nucleus ²²Si with ab initio calculation

NUCLEAR STRUCTURE ²²O, ²²Si, ²⁶Si, ²⁶Mg, ²⁴Si, ²⁴Ne; calculated energy levels, the mirror energy difference (MED). ²²Si, ²²O; deduced double magic nuclei using ab initio valence space in-medium similarity renormalization group.

doi: 10.1016/j.physletb.2023.138197
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2023WA02      Phys.Rev. C 107, 014911 (2023)

T.-T.Wang, Y.-G.Ma, S.Zhang

Simulations of momentum correlation functions of light (anti)nuclei in relativistic heavy-ion collisions at √ s_NN = 39 GeV

doi: 10.1103/PhysRevC.107.014911
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2023WA10      Phys.Rev.Lett. 130, 192501 (2023)

M.Wang, Y.H.Zhang, X.Zhou, X.H.Zhou, H.S.Xu, M.L.Liu, J.G.Li, Y.F.Niu, W.J.Huang, Q.Yuan, S.Zhang, F.R.Xu, Y.A.Litvinov, K.Blaum, Z.Meisel, R.F.Casten, R.B.Cakirli, R.J.Chen, H.Y.Deng, C.Y.Fu, W.W.Ge, H.F.Li, T.Liao, S.A.Litvinov, P.Shuai, J.Y.Shi, Y.N.Song, M.Z.Sun, Q.Wang, Y.M.Xing, X.Xu, X.L.Yan, J.C.Yang, Y.J.Yuan, Q.Zeng, M.Zhang

Mass Measurement of Upper fp-Shell N = Z - 2 and N = Z - 1 Nuclei and the Importance of Three-Nucleon Force along the N = Z Line

ATOMIC MASSES ⁵⁸Zn, ⁶⁰Ga, ⁶²Ge, ⁶⁴As, ⁶⁶Se, ⁷⁰Kr, ⁶¹Ga, ⁶³Ge, ⁶⁵As, ⁶⁷Se, ⁷¹Kr, ⁷⁵Sr; measured time-of-flight (TOF); deduced mass excess (ME). A novel method of isochronous mass spectrometry, the Heavy Ion Research Facility in Lanzhou (HIRFL).

doi: 10.1103/PhysRevLett.130.192501
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2023WA11      Appl.Radiat.Isot. 198, 110852 (2023)

Q.Wang, Y.Wang, Z.li, S.Niu, S.Si, Q.Wang, S.Zhang

Fission cross-section measurement for ^135mXe and ^135gXe in ²³⁸U reaction induced by 14MeV D-T neutrons

NUCLEAR REACTIONS ²³⁸U(n, X)¹³⁵Xe/¹³⁵I, E=14.1, 14.5, 14.7 MeV; measured reaction products, Eγ, Iγ; deduced independent fission σ. Comparison with available data. The K-400 high-current neutron generator platform of the Second Institute of the Chinese Academy of Engineering Physics.

doi: 10.1016/j.apradiso.2023.110852
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2023WA37      Int.J.Mod.Phys. E32, 2340010 (2023)

Y.Wang, Sh.Zhang

Rotational spectroscopies of reflection-asymmetric nuclei within particle rotor model

NUCLEAR STRUCTURE ²²³Th, ⁷⁸Br, ¹²⁴Cs; analyzed available data; deduced the status of observations of the alternated parity bands in even-even nuclei and the parity doublet bands in odd-A and odd-odd nuclei for the A ∼ 220 mass region.

doi: 10.1142/S0218301323400104
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2023WU02      Phys.Rev. C 107, L031902 (2023)

W.-Y.Wu, Q.-Y.Shou, P.Christakoglou, P.Das, M.R.Haque, G.-L.Ma, Y.-G.Ma, B.Mohanty, C.-Z.Wang, S.Zhang, J.Zhao

Global constraint on the magnitude of anomalous chiral effects in heavy-ion collisions

doi: 10.1103/PhysRevC.107.L031902
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2023XI02      Eur.Phys.J. A 59, 33 (2023)

B.-S.Xi, X.-G.Deng, S.Zhang, Y.-G.Ma

Vorticity in isobar collisions of ⁹⁶₄₄Ru + ⁹⁶₄₄Ru and ⁹⁶₄₀Zr + ⁹⁶₄₀Zr at √ s_NN = 200 GeV

NUCLEAR REACTIONS ⁹⁶Ru(⁹⁶Ru, X), ⁹⁶Zr(⁹⁶Zr, X), E=200 GeV; calculated kinematic vorticity and thermal vorticity within the framework of Ultra-relativistic Quantum Molecular Dynamics model (UrQMD); deduced impact of deformation parameter.

doi: 10.1140/epja/s10050-023-00932-w
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2023XI09      Phys.Lett. B 845, 138160 (2023)

Y.Xiao, S.-Z.Xu, R.-Y.Zheng, X.-X.Sun, L.-S.Geng, S.-S.Zhang

One-proton emission from ^148-151Lu in the DRHBc+WKB approach

RADIOACTIVITY ^{148,149,150,151}Lu(p); analyzed available data; deduced proton-nucleus potential from the deformed relativistic Hartree-Bogoliubov theory in continuum (DRHBc), oblate deformation, T_1/2, the DRHBc + WKB approach provides a new alternative method to evaluate the half-lives of well-deformed proton emitters.

doi: 10.1016/j.physletb.2023.138160
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2023XU10      Phys.Rev. C 108, L031301 (2023)

Z.C.Xu, S.Zhang, J.G.Li, S.L.Jin, Q.Yuan, Z.H.Cheng, N.Michel, F.R.Xu

Complex valence-space effective operators for observables: The Gamow-Teller transition

doi: 10.1103/PhysRevC.108.L031301
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2023XU13      Nucl. Sci. Tech. 34, 5 (2023)

S.-Zh.Xu, Sh.-Sh.Zhang, X.-Q.Jiang, M.S.Smith

The complex momentum representation approach and its application to low-lying resonances in ¹⁷O and ^{29, 31}F

NUCLEAR STRUCTURE ¹⁷O, ^29,31F; analyzed available data; deduced energy levels, resonance parameters using the complex momentum representation (CMR).

doi: 10.1007/s41365-022-01159-y
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2023ZH17      Phys.Rev. C 107, 045809 (2023)

S.Zhang, G.Li, W.Jiang, D.X.Wang, J.Ren, M.Huang, E.T.Li, J.Y.Tang, X.C.Ruan, H.W.Wang, Z.H.Li, Y.S.Chen, L.X.Liu, X.X.Li, Q.W.Fan, R.R.Fan, X.R.Hu, J.C.Wang, X.Li, D.D.Niu, N.Song, M.Gu

Measurement of the ¹⁵⁹Tb (n, γ) cross section at the CSNS Back-n facility

NUCLEAR REACTIONS ¹⁵⁹Tb(n, γ), E=0.002-1 MeV; measured neutron Time-of-Flight, Eγ, Iγ; deduced σ(E), resonance parameters, Maxwellian-averaged σ (kT=5-100 keV), astrophysical reaction rate. R-matrix analysis (SAMMY code) to obtain resonance parameters and compare to JEFF-3.3 evaluations, recommended data from Mughabghab and ENDF/B-VIII.0. Comparison of cross-section data to other experimental results, TALYS-1.9 calculations, data from KADoNiS-v0.3, KADoNiS-v1.0, JEFF-3.3, ENDF/B-VIII.0. Analyzed impact of the obtained data on the time evolution of nuclear abundances of ¹⁵⁹Tb, ¹⁶⁰Tb, ¹⁶⁰Dy, ¹⁶¹Dy, ¹⁶²Dy, ¹⁶³Dy, ¹⁶⁴Dy, ¹⁶³Ho, ¹⁶⁵Ho, ¹⁶⁴Er, ¹⁶⁶Er, ¹⁶⁷Er. Four C₆D₆ detectors. Neutron beam from Back-n Facility of the China spallation neutron source (CSNS).

doi: 10.1103/PhysRevC.107.045809
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2023ZH19      Eur.Phys.J. A 59, 72 (2023)

Y.-X.Zhang, S.Zhang, Y.-G.Ma

Deuteron production mechanism via azimuthal correlation for p-p and p-Pb collisions at LHC energy with the AMPT model

doi: 10.1140/epja/s10050-023-00980-2
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2023ZH29      Eur.Phys.J. A 59, 101 (2023)

S.Y.Zhang, X.Yang, Y.X.Wang, X.H.Bai, K.Wu, J.Ma, Z.E.Yao, Y.Zhang, Z.Y.Deng, L.Wu, G.T.Gao, T.Z.Jiang, C.Bao, Y.B.Nie, Y.Y.Ding, J.R.Wang, Z.Wei

Measurement of neutron source characterization of the compact D-D neutron generator with unfolding algorithm

doi: 10.1140/epja/s10050-023-01007-6
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2023ZH35      Phys.Lett. B 844, 138112 (2023)

K.Y.Zhang, S.Q.Yang, J.L.An, S.S.Zhang, P.Papakonstantinou, M.-H.Mun, Y.Kim, H.Yan

Missed prediction of the neutron halo in ³⁷Mg

NUCLEAR STRUCTURE ^35,36,37Mg; calculated neutron density distributions, single-neutron energies, occupation probabilities using a microscopic and self-consistent way using the deformed relativistic Hartree-Bogoliubov theory in continuum; deduced the deformed p-wave halo characteristics of ³⁷Mg.

doi: 10.1016/j.physletb.2023.138112
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2023ZH44      Phys.Rev. C 108, L041301 (2023)

K.Y.Zhang, S.Q.Zhang, J.Meng

Possible neutron halo in the triaxial nucleus ⁴²Al

doi: 10.1103/PhysRevC.108.L041301
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2023ZH48      Phys.Rev. C 108, 064316 (2023)

S.Zhang, F.R.Xu, J.G.Li, B.S.Hu, Z.H.Cheng, N.Michel, Y.Z.Ma, Q.Yuan, Y.H.Zhang

Ab initio descriptions of A=16 mirror nuclei with resonance and continuum coupling

doi: 10.1103/PhysRevC.108.064316
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2022AN12      Chin.Phys.C 46, 054101 (2022)

R.An, S.-S.Zhang, L.-S.Geng, F.-S.Zhang

Charge radii of potassium isotopes in the RMF (BCS)^* approach

NUCLEAR STRUCTURE ^{37,38,39,40,41,42,43,44,45,46,47,48,49,50,51}K; calculated odd-even staggerings of binding energies, and charge radii of potassium isotopes. Comparison with available data.

doi: 10.1088/1674-1137/ac4b5c
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2022CA18      Phys.Rev. C 106, 014910 (2022)

R.-X.Cao, S.Zhang, Y.-G.Ma

Specific heat and its high-order moments in relativistic heavy-ion collisions from a multiphase transport model

doi: 10.1103/PhysRevC.106.014910
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2022FA03      Eur.Phys.J. A 58, 81 (2022)

L.-M.Fang, Y.-G.Ma, S.Zhang

Azimuthal-sensitive three-dimensional HBT radius in Au-Au collisions at E_beam = 1.23 A Gev by the IQMD model

doi: 10.1140/epja/s10050-022-00722-w
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2022GE09      Phys.Rev. C 106, 024304 (2022)

Y.F.Geng, J.G.Li, Y.Z.Ma, B.S.Hu, Q.Wu, Z.H.Sun, S.Zhang, F.R.Xu

Excitation spectra of the heaviest carbon isotopes investigated within the CD-Bonn Gamow shell model

NUCLEAR STRUCTURE ^19,20,21,22C; calculated levels, J, π, ground-state energies using Gamow shell model (GSM) based on a realistic nuclear, with a complex GSM effective interaction derived from many-body perturbation theory. Comparison with experimental data.

doi: 10.1103/PhysRevC.106.024304
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2022GR05      Phys.Rev. C 106, 014318 (2022)

E.Grodner, M.Kowalczyk, M.Kisielinski, J.Srebrny, L.Prochniak, Ch.Droste, S.G.Rohozinski, Q.B.Chen, M.Ionescu-Bujor, C.A.Ur, F.Recchia, J.Meng, S.Q.Zhang, P.W.Zhao, G.Georgiev, R.Lozeva, E.Fiori, S.Aydin, A.Nalecz-Jawecki

Examination of nuclear chirality with a magnetic moment measurement of the I=9 isomeric state in ¹²⁸Cs

NUCLEAR MOMENTS ^128mCs; measured Eγ, γ-intensity oscillation spectra, oscillating ratios, Larmor frequency of precession with a magnetic field of about 0.7 T, time differential perturbed angular distribution (TDPAD) of γ rays from the isomer using ¹²²Sn(¹⁰B, 4n)¹²⁸Cs, E=55 MeV reaction at the Tandem accelerator of IPN Orsay; deduced g-factor and configuration of the isomeric 9+ bandhead of the yrast states. Comparison with theoretical predictions for shell-model configurations, and chiral interpretation of ¹²⁸Cs nucleus as a composition of the odd proton, odd neutron, and even-even core with their angular momentum vectors.

NUCLEAR STRUCTURE ¹²⁸Cs; calculated levels, J, π, bands, B(E2), B(M1), g factors using quantum angular momentum algebra and semiclassical calculations, in the framework of many-particle-many-hole Particle Triaxial Rotor Model. Evidence for the existence of chiral critical frequency, and absence of chiral doublet members for J<13 states.

doi: 10.1103/PhysRevC.106.014318
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2022GU21      Astrophys.J. 941, 31 (2022)

D.L.Guo, R.T.Zhang, X.L.Zhu, Y.Gao, K.Z.Lin, T.Cao, D.M.Zhao, X.B.Zhu, C.J.Zhang, S.F.Zhang, X.Ma

Benchmark n ℓ-resolved Cross Sections of Single and Double Charge Exchange Processes in 1.67-20 KeV u^-11 C⁴⁺ Collisions with He

NUCLEAR REACTIONS He(C, X), E=1.67-2 keV/nucleon; analyzed available data; deduced σ for charge exchange processes.

doi: 10.3847/1538-4357/ac9d2e
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2022HA28      Phys. Rev. Res. 4, 033049 (2022)

J.Z.Han, C.Pan, K.Y.Zhang, X.F.Yang, S.Q.Zhang, J.C.Berengut, S.Goriely, H.Wang, Y.M.Yu, J.Meng, J.W.Zhang, L.J.Wang

Isotope shift factors for the Cd⁺ 5s²S_1/2 → 5p²P_3/2 transition and determination of Cd nuclear charge radii

NUCLEAR MOMENTS ^{100,101,102,103,104,105,106,107,108,109,110,111,112,113,114,115,116,117,118,119,120,121,122,123,124,125,126,127,128,129,130}Cd; measured frequencies; deduced atomic isotope shift factors limits, linear transformation parameters, nuclear charge radii. Comparison with CI+MBPT calculations are performed to cross-check the accuracy and reliability of the extracted atomic IS factors.

doi: 10.1103/PhysRevResearch.4.033049
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2022HE08      Phys.Rev. C 105, 044332 (2022)

B.C.He, S.Y.Zhang, L.Li, Y.A.Luo, Y.Zhang, F.Pan, J.P.Draayer

Even-even Nd isotopes in an SD-pair shell model

NUCLEAR STRUCTURE ^{144,146,148,150,152,154,156}Nd; calculated levels, J, π, B(E2). Nucleon pair shell model truncated to SD collective pair subspace (SDPSM). Comparison to experimental data.

doi: 10.1103/PhysRevC.105.044332
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2022LI40      Phys.Rev. C 106, 014906 (2022)

F.Li, Y.-G.Ma, S.Zhang, G.-L.Ma, Q.Shou

Impact of nuclear structure on the background in the chiral magnetic effect in ⁹⁶₄₄Ru + ⁹⁶₄₄Ru and ⁹⁶₄₀Zr + ⁹⁶₄₀Zr collisions at √ s_NN = 7.7-200 GeV from a multiphase transport model

NUCLEAR REACTIONS ⁹⁶Ru(⁹⁶Ru, X), ⁹⁶Zr(⁹⁶Zr, X), E(cm)=7.7, 27, 62.4, 200 GeV; analyzed experimental data from STAR collaboration of RHIC-BNL for distributions of the number of charged hadrons in the pseudorapidity window, mean charge multiplicity, elliptic and triangular flows as function of centrality using the simulation by string melting version of a multiphase transport (AMPT) model; deduced that quadrupole deformation β₂ and neutron skin effects occur in the most-central collisions, while octupole deformation occurs in the near-central collisions. Relevance to precise determination of the shapes of nuclei in isobaric relativistic heavy-ion collisions.

doi: 10.1103/PhysRevC.106.014906
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2022LI72      Phys.Rev. C 106, 065804 (2022)

X.X.Li, L.X.Liu, W.Jiang, J.Ren, H.W.Wang, G.T.Fan, D.X.Wang, S.Y.Zhang, G.L.Yang, X.K.Li, Z.D.An, J.J.He, W.Luo, X.G.Cao, L.L.Song, Y.Zhang, X.R.Hu, Z.R.Hao, P.Kuang, B.Jiang, X.H.Wang, J.F.Hu, Y.D.Liu, C.W.Ma, Y.T.Wang, J.Su, L.Y.Zhang, Y.X.Yang, S.Feng, W.B.Liu, W.Q.Su, S.Jin, K.J.Chen

Experimental determination of the neutron resonance peak of ¹⁶²Er at 67.8 eV

NUCLEAR REACTIONS ¹⁶²Er(n, γ), E=20-100 eV; measured Eγ, Iγ; deduced neutron-capture yield, resonances, decay widths. Resonance parameters at 67.8 eV are extracted for the first time. R-matrix analysis. Comparison to other experimental results and ENDF/B-VIII.0 data. 4 C₆D₆ detectors. Neutron beam from Back-n Facility of the CSNS.

doi: 10.1103/PhysRevC.106.065804
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2022LU01      Phys.Rev. C 105, 024305 (2022)

D.W.Luo, C.Xu, Y.K.Wang, Z.H.Li, R.A.Bark, S.Q.Zhang, H.Hua, S.Y.Wang, J.Peng, X.Q.Li, H.Y.Wu, X.Wang, C.G.Wu, Q.T.Li, J.Lin, Y.Jin, W.Z.Xu, L.Mu, J.Meng, F.R.Xu, Y.L.Ye, D.X.Jiang, P.Jones, E.A.Lawrie, P.Papka, M.F.Nkalanga, T.D.Bucher, M.V.Chisapi, L.Msebi, S.Jongile, S.Ntshangase, B.R.Zikhali, S.H.Mthembu, T.Seakamela, M.A.Sithole, O.Shirihda, A.A.Aava, L.Mdletshe, K.L.Malatji, S.Mhlongo, L.Makhathini

Collective structures in ⁶²Cu

NUCLEAR REACTIONS ⁵⁴Cr(¹²C, 3np), E=67 MeV; measured Eγ, Iγ, γ(θ), γγ-coin. ⁶²Cu; deduced levels, J, π, high-spin levels, B(M1)/B(E2), configurations, γγ(linear polarization). Comparison with calculations using the self-consistent tilted axis cranking covariant density functional theory (TAC-C DFT). Comparison with level structures in ^60,64Ca. AFRODITE array at the iThemba LABS accelerator facility.

doi: 10.1103/PhysRevC.105.024305
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2022MD01      Phys.Rev. C 106, 044325 (2022)

L.Mdletshe, X.Q.Yang, E.A.Lawrie, M.A.Sithole, S.N.T.Majola, S.S.Ntshangase, J.F.Sharpey-Schafer, J.J.Lawrie, S.H.Mthembu, T.D.Bucher, L.Msebi, R.A.Bark, A.A.Avaa, M.V.Chisapi, P.Jones, S.Jongile, Z.P.Li, L.Makhathini, K.L.Malatji, A.A.Netshiya, Z.Shi, B.Y.Song, L.Wang, J.Xiang, S.Q.Zhang

Collective rotational bands at low excitation energy in ¹⁸⁶Os: Vibrational and rotational degrees of freedom

NUCLEAR REACTIONS ¹⁸⁶W(α, 4n), E=48 MeV; measured Eγ, Iγ, γγ-coin. ¹⁸⁶Os; deduced levels, J, π, linear polarization asymmetries, angular distribution ratios, high-spin states, bands structure, staggering parameter; calculated levels, J, π, bands structure, potential energy surfaces, staggering parameter. Five-dimensional collective Hamiltonian based on the covariant density functional theory (5DCH-CDFT) and triaxial rotor model (TRM) calculations. Systematics of the bands alignments for ^{182,184,186,188,190,192}Os isotopes. AFRODITE γ-ray spectrometer consisting of 11 clover HPGe detectors at iThemba LABS Separated-Sector Cyclotron.

doi: 10.1103/PhysRevC.106.044325
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2022MU09      Phys.Lett. B 827, 137006 (2022)

L.Mu, S.Y.Wang, C.Liu, B.Qi, R.A.Bark, J.Meng, S.Q.Zhang, P.Jones, S.M.Wyngaardt, H.Jia, Q.B.Chen, Z.Q.Li, S.Wang, D.P.Sun, R.J.Guo, X.C.Han, W.Z.Xu, X.Xiao, P.Y.Zhu, H.W.Li, H.Hua, X.Q.Li, C.G.Li, R.Han, B.H.Sun, L.H.Zhu, T.D.Bucher, B.V.Kheswa, N.Khumalo, E.A.Lawrie, J.J.Lawrie, K.L.Malatji, L.Msebi, J.Ndayishimye, J.F.Sharpey-Schafer, O.Shirinda, M.Wiedeking, T.Dinoko, S.S.Ntshangase

First observation of the coexistence of multiple chiral doublet bands and pseudospin doublet bands in the A ≈ 80 mass region

NUCLEAR REACTIONS ⁸²Se(α, X)⁸¹Kr, E=65, 68 MeV; measured reaction products, Eγ, Iγ; deduced γ-ray energies, J, π, two nearly degenerate positive-parity bands. Comparison with the constrained covariant density functional theory and the multiparticle plus rotor model calculations.

doi: 10.1016/j.physletb.2022.137006
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2022QU01      Phys.Rev. C 105, 014326 (2022)

X.Y.Qu, H.Tong, S.Q.Zhang

Canonical states in relativistic continuum theory with the Green's function method: Neutrons in continuum of zirconium giant-halo nuclei

NUCLEAR STRUCTURE ^{116,118,120,122,124,126,128,130,132,134,136,138,140}Zr; calculated S(2n), neutron and proton rms radii, neutron and proton pairing energies. ¹²⁸Zr; calculated positive-energy canonical states, neutron canonical wave functions. ^{122,124,128,132,136}Zr; calculated occupation probabilities in the canonical basis as functions of the canonical single-particle energy, neutrons in continuum as functions of the pairing strength; deduced that neutrons in continuum of giant halo nuclei may heavily depend on the adopted pairing strength and the density functional. Relativistic continuum Hartree-Bogoliubov (RCHB) theory with Green's function method, using PK1 and NL-SH density functionals, and diagonalization of density matrix on a spatial mesh.

doi: 10.1103/PhysRevC.105.014326
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2022SO20      Astrophys.J. 941, 56 (2022)

N.Song, S.Zhang, Z.H.Li, G.X.Li, Z.C.Gao, H.K.Wang

Influence of Neutrino-Nuclear Reactions on the Abundance of ⁷⁴Se

NUCLEAR REACTIONS ⁷⁴Ge(ν, e^-), E<60 MeV; calculated σ using experimental and theoretical B(GT).

doi: 10.3847/1538-4357/aca328
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2022SU16      Chin.Phys.C 46, 064103 (2022)

W.Sun, K.-Y.Zhang, C.Pan, X.-H.Fan, S.-Q.Zhang, Z.-P.Li

Beyond-mean-field dynamical correlations for nuclear mass table in deformed relativistic Hartree-Bogoliubov theory in continuum

NUCLEAR STRUCTURE ^{120,122,124,126,128,130,132,134,136,138,140,142,144,146,148,150,152,154,156,158,160,162,164,166,168,170,172,174,176,178,180,182,184,186,188,190,192,194,196,198,200,202,204,206,208,210,212,214,216,218,220}Nd, ^{62,64,66,68,70,72,74,76,78,80,82,84,86,88,90,92,94,96,98,100,102,104,106,108,110,112,114,116,118,120,122}Se, ^{210,212,214,216,218,220,222,224,226,228,230,232,234,236,238,240,242,244,246,248,250,252,254,256,258,260,262,264,266,268,270,272,274,276,278,280,282,284,286,288,290,292,294,296,298,300,302,304,306,308,310,312,314,316,318,320,322,324,326,328,330,332,334,336,338,340,342,344,346,348,350}Th; calculated dynamical correlation and rotational correction energies obtained from the cranking approximation, two-neutron seperation energies using the deformed relativistic Hartree-Bogoliubov theory in continuum (DRHBc) with the dynamical correlation energies (DCEs).

doi: 10.1088/1674-1137/ac53fa
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2022SU17      Chin.Phys.C 46, 074106 (2022)

Q.-K.Sun, T.-T.Sun, W.Zhang, S.-S.Zhang, C.Chen

Possible shape coexistence in odd-A Ne isotopes and the impurity effects of Λ hyperons

NUCLEAR STRUCTURE ^{18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34}Ne; calculated binding energy per nucleon, quadrupole deformation, potential energy curves (PECs) as a function of the deformation parameter in the framework of the multidimensionally constrained relativistic-mean-field (MDC-RMF) model.

doi: 10.1088/1674-1137/ac6153
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2022WA12      Phys.Rev. C 105, 044316 (2022)

Y.Y.Wang, Q.B.Chen, S.Q.Zhang

Interpretation of enhanced electric dipole transitions in ⁷³Br by the reflection-asymmetric triaxial particle rotor model

NUCLEAR STRUCTURE ⁷³Br; calculated potential energy surface, levels, J, π, B(E2), B(E1), positive and negative parity bands structures, proton single-particle levels. Investigated octupole correlations. Reflection-asymmetric triaxial version of particle rotor model (RAT-PRM). Comparison to experimental data.

doi: 10.1103/PhysRevC.105.044316
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2022WA18      Phys.Lett. B 831, 137198 (2022)

Y.-Z.Wang, S.Zhang, Y.-G.Ma

System dependence of away-side broadening and α-clustering light nuclei structure effect in dihadron azimuthal correlations

NUCLEAR REACTIONS ¹⁶O(¹⁶O, X), ¹⁰B(¹⁰B, X), ⁴⁰Ca(⁴⁰Ca, X), ⁹⁶Zr(⁹⁶Zr, X), ¹⁹⁷Au(¹⁹⁷Au, X), E=6.73 TeV; analyzed available data; deduced dihadron azimuthal correlation, the momentum dependence of away-side broadening parameters.

doi: 10.1016/j.physletb.2022.137198
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2022WA21      Phys.Rev. C 106, L011303 (2022)

C.G.Wang, R.Han, C.Xu, H.Hua, R.A.Bark, S.Q.Zhang, S.Y.Wang, T.M.Shneidman, S.G.Zhou, J.Meng, S.M.Wyngaardt, A.C.Dai, F.R.Xu, X.Q.Li, Z.H.Li, Y.L.Ye, D.X.Jiang, C.G.Li, C.Y.Niu, Z.Q.Chen, H.Y.Wu, D.W.Luo, S.Wang, D.P.Sun, C.Liu, Z.Q.Li, N.B.Zhang, R.J.Guo, P.Jones, E.A.Lawrie, J.J.Lawrie, J.F.Sharpey-Schafer, M.Wiedeking, S.N.T.Majola, T.D.Bucher, T.Dinoko, B.Maqabuka, L.Makhathini, L.Mdletshe, O.Shirinda, K.Sowazi

First evidence of an octupole rotational band in Ge isotopes

NUCLEAR REACTIONS ⁷⁴Ge(α, 3nα)⁷¹Ge, E=58.6, 62.6 MeV; measured Eγ, Iγ, γγ-coin, γγ(θ)(ADO), γγ(linear polarization) using AFRODITE array for γ detection at the Separated Sector Cyclotron facility of iThemba LABS. ⁷¹Ge; deduced levels, J, π, multipolarities, alignments, rotational bands, octupole rotational band. Comparison with semi-microscopic cluster model calculations. Systematics of energies of 15/2- states in ^67,69,71Ge, and those of 2+ and 3- states in ^{66,68,70,72,74}Ge. Systematics of B(E1)/B(E2) ratios for 19/2- states in ^67,71Ge in comparison to the ratio for octupole-deformed ²²⁰Ra nucleus. ⁷¹Ge, ⁷⁴Se; calculated levels, J, π, B(E2) using two-center shell model (TCSM), and compared with experimental data.

doi: 10.1103/PhysRevC.106.L011303
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2022XI09      Phys.Rev. C 106, 064302 (2022)

X.Xiao, S.Y.Wang, C.Liu, R.A.Bark, J.Meng, S.Q.Zhang, B.Qi, H.Hua, P.Jones, S.M.Wyngaardt, S.Wang, D.P.Sun, Z.Q.Li, N.B.Zhang, H.Jia, R.J.Guo, X.C.Han, L.Mu, X.Lu, W.Z.Xu, C.Y.Niu, C.G.Wang, E.A.Lawrie, J.J.Lawrie, J.F.Sharpey-Schafer, M.Wiedeking, S.N.T.Majola, T.D.Bucher, T.Dinoko, B.Maqabuka, L.Makhathini, L.Mdletshe, N.A.Khumalo, O.Shirinda, K.Sowazi

Chirality and octupole correlations in ⁷⁴As

NUCLEAR REACTIONS ⁷⁴Ge(α, 3np), E=58.6, 62.6 MeV; measured Eγ, Iγ, γγ-coin, γγ(θ). ⁷⁴As; deduced levels, J, π, angular distributions from the oriented states (ADO) ratio, polarization asymmetry, bands structure, high-spin states, configurations, energy staggering parameter, B(M1)/B(E2) and B(E2)/B(E1) ratios, energy displacement between bands. Systematics of the excitation energies for the yrast states above I=7 in ^70,72,74As. Positive-parity bands are interpreted as chiral doublet bands. Found experimental evidence of octupole correlations existence in ⁷⁴As, similar to ⁷³Br. Comparison to triaxial particle rotor model (TPRM) calculations. AFRODITE array consisting of 8 Compton suppressed clover detectors and 2 low-energy photon spectrometer (LEPS) detectors at separated Sector Cyclotron of iThemba LABS.

doi: 10.1103/PhysRevC.106.064302
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2022XU02      Phys.Rev. C 105, 014304 (2022)

H.T.Xue, X.R.Zhou, S.Y.Zhang, B.C.He, Y.A.Luo, L.Li, F.Pan, J.P.Draayer

Neutrinoless double-β decay in the nucleon-pair shell model

RADIOACTIVITY ¹³⁰Te, ^134,136Xe(2β^-); calculated nuclear matrix elements (NMEs) of g.s. to g.s. neutrinoless double-β decay (0νββ) in the nucleon pair shell-model framework, with surface-δ approximation (SDI) and the BCS approximation. Comparison with shell model (SM), quasiparticle random-phase approximation (QRPA), and IBM2 theoretical calculations.

NUCLEAR STRUCTURE ^130,134,136Xe, ¹³⁰Te, ^134,136Ba; calculated low-lying positive-parity levels p to 10+ using shell model in the surface-δ approximation (SD)-pair or the SDG-pair subspace. Comparison with experimental data taken from the ENSDF database at NNDC, BNL.

doi: 10.1103/PhysRevC.105.014304
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2022YA02      Ann.Nucl.Energy 165, 108780 (2022)

L.Yang, Y.Han, X.Dai, Q.Qin, Q.Wang, S.Zhang, K.Fang, C.Lan

The cross section measurements of ¹³¹X produced in ²³⁸U(n, f) reaction induced by 14 MeV neutron

NUCLEAR REACTIONS ²³⁸U(n, F)¹³¹Sb/¹³¹Te, E=14 MeV; measured reaction products, Eγ, Iγ; deduced fission σ and uncertainties, fission yields. Comparison ENDF/B-VIII.0, JEFF-3.3, and JENDL-4.0 libraries, TALYS 1.9 calculations.

doi: 10.1016/j.anucene.2021.108780
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2022YU02      Phys.Rev. C 105, L061303 (2022)

Q.Yuan, S.Q.Fan, B.S.Hu, J.G.Li, S.Zhang, S.M.Wang, Z.H.Sun, Y.Z.Ma, F.R.Xu

Deformed in-medium similarity renormalization group

NUCLEAR STRUCTURE ^{6,8,10,12,14,16}Be, ^{10,12,14,16,18,20,22}C, ^{14,16,18,20,22,24,26,28}O, ^{16,18,20,22,24,26,28,30,32,34}Ne, ^{20,22,24,26,28,30,32,34,36,38,40}Mg; calculated ground-state energies, and charge radii using deformed ab initio in-medium similarity renormalization group (deformed IMSRG), Hartree-Fock, and angular momentum projection methods for open-shell nuclei; results benchmarked with the no-core shell model and valence-space IMSRG calculations. Comparison with experimental data.

doi: 10.1103/PhysRevC.105.L061303
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2022ZH01      J.Phys.(London) G49, 025102 (2022)

S.S.Zhang, S.Y.Zhong, B.Shao, M.S.Smith

Self-consistent description of the halo nature of ³¹Ne with continuum and pairing correlations

NUCLEAR STRUCTURE ^30,31Ne; calculated density distributions, halo structure using the analytical continuation of the coupling constant (ACCC) method based on the relativistic mean field (RMF) theory with Bardeen-Cooper-Schrieffer (BCS) pairing approximation, the RAB approach.

doi: 10.1088/1361-6471/ac430e
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2022ZH29      Phys.Rev. C 105, 054902 (2022)

S.-L.Zhang, X.-N.Wang, B.-W.Zhang

Quenching of jets tagged with W bosons in high-energy nuclear collisions

doi: 10.1103/PhysRevC.105.054902
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2022ZH44      Phys.Rev. C 106, 024302 (2022)

K.Y.Zhang, C.Pan, S.Q.Zhang

Optimized Dirac Woods-Saxon basis for covariant density functional theory

NUCLEAR STRUCTURE ²⁰Ne, ¹¹²Mo, ³⁰⁰Th; calculated total energy as a function of the energy cutoff in the Dirac sea, number of Dirac Woods-Saxon (DWS) bases in the Fermi sea, single-neutron levels for ³⁰⁰Th near the continuum threshold using DWS and optimized Dirac Woods-Saxon (ODWS) basis. Deformed relativistic Hartree-Bogoliubov theory in continuum (DRHBc), with optimized Dirac Woods-Saxon basis.

doi: 10.1103/PhysRevC.106.024302
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2022ZH57      Phys.Lett. B 827, 136958 (2022)

S.Zhang, Y.Z.Ma, J.G.Li, B.S.Hu, Q.Yuan, Z.H.Cheng, F.R.Xu

The roles of three-nucleon force and continuum coupling in mirror symmetry breaking of oxygen mass region

NUCLEAR STRUCTURE ^{17,18,19,20,21,22,23,24,25,26,27,28}O; calculated g.s. energies, energy levels, J, π, using the complex-energy ab initio Gamow shell model with a core. Comparison with available data.

doi: 10.1016/j.physletb.2022.136958
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2022ZH74      Sci.China: Phys.Mech.Astron. 65, 262011 (2022)

S.-Y.Zhong, S.-S.Zhang, X.-X.Sun, M.S.Smith

Study of the deformed halo nucleus ³¹Ne with Glauber model based on microscopic self-consistent structures

NUCLEAR STRUCTURE ^{26,27,28,29,30,31}Ne; calculated two-dimensional neutron density functions, averaged-angle neutron densities, single neutron levels, inclusive parallel momentum distributions. The deformed relativistic Hartree-Bogoliubov theory in continuum (DRHBc).

NUCLEAR REACTIONS ¹²C(²⁶Ne, X), (²⁷Ne, X), (²⁸Ne, X), (²⁹Ne, X), (³⁰Ne, X), (³¹Ne, X), E=240 MeV/nucleon; calculated σ using DRHBc and RAB model. Comparison with experimental data.

doi: 10.1007/s11433-022-1894-6
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2021AB12      Phys.Rev. C 104, L061901 (2021)

M.S.Abdallah, B.E.Aboona, J.Adam, L.Adamczyk, J.R.Adams, J.K.Adkins, G.Agakishiev, I.Aggarwal, M.M.Aggarwal, Z.Ahammed, I.Alekseev, D.M.Anderson, A.Aparin, E.C.Aschenauer, M.U.Ashraf, F.G.Atetalla, A.Attri, G.S.Averichev, V.Bairathi, W.Baker, J.G.Ball Cap, K.Barish, A.Behera, R.Bellwied, P.Bhagat, A.Bhasin, J.Bielcik, J.Bielcikova, I.G.Bordyuzhin, J.D.Brandenburg, A.V.Brandin, I.Bunzarov, J.Butterworth, X.Z.Cai, H.Caines, M.Calderon de la Barca Sanchez, D.Cebra, I.Chakaberia, P.Chaloupka, B.K.Chan, F.-H.Chang, Z.Chang, N.Chankova-Bunzarova, A.Chatterjee, S.Chattopadhyay, D.Chen, J.Chen, J.H.Chen, X.Chen, Z.Chen, J.Cheng, M.Chevalier, S.Choudhury, W.Christie, X.Chu, H.J.Crawford, M.Csanad, M.Daugherity, T.G.Dedovich, I.M.Deppner, A.A.Derevschikov, A.Dhamija, L.Di Carlo, L.Didenko, P.Dixit, X.Dong, J.L.Drachenberg, E.Duckworth, J.C.Dunlop, N.Elsey, J.Engelage, G.Eppley, S.Esumi, O.Evdokimov, A.Ewigleben, O.Eyser, R.Fatemi, F.M.Fawzi, S.Fazio, P.Federic, J.Fedorisin, C.J.Feng, Y.Feng, P.Filip, E.Finch, Y.Fisyak, A.Francisco, C.Fu, L.Fulek, C.A.Gagliardi, T.Galatyuk, F.Geurts, N.Ghimire, A.Gibson, K.Gopal, X.Gou, D.Grosnick, A.Gupta, W.Guryn, A.I.Hamad, A.Hamed, Y.Han, S.Harabasz, M.D.Harasty, J.W.Harris, H.Harrison, S.He, W.He, X.H.He, Y.He, S.Heppelmann, S.Heppelmann, N.Herrmann, E.Hoffman, L.Holub, Y.Hu, H.Huang, H.Z.Huang, S.L.Huang, T.Huang, X.Huang, Y.Huang, T.J.Humanic, G.Igo, D.Isenhower, W.W.Jacobs, C.Jena, A.Jentsch, Y.Ji, J.Jia, K.Jiang, X.Ju, E.G.Judd, S.Kabana, M.L.Kabir, S.Kagamaster, D.Kalinkin, K.Kang, D.Kapukchyan, K.Kauder, H.W.Ke, D.Keane, A.Kechechyan, M.Kelsey, Y.V.Khyzhniak, D.P.Kikola, C.Kim, B.Kimelman, D.Kincses, I.Kisel, A.Kiselev, A.G.Knospe, H.S.Ko, L.Kochenda, L.K.Kosarzewski, L.Kramarik, P.Kravtsov, L.Kumar, S.Kumar, R.Kunnawalkam Elayavalli, J.H.Kwasizur, R.Lacey, S.Lan, J.M.Landgraf, J.Lauret, A.Lebedev, R.Lednicky, J.H.Lee, Y.H.Leung, C.Li, C.Li, W.Li, X.Li, Y.Li, X.Liang, Y.Liang, R.Licenik, T.Lin, Y.Lin, M.A.Lisa, F.Liu, H.Liu, H.Liu, P.Liu, T.Liu, X.Liu, Y.Liu, Z.Liu, T.Ljubicic, W.J.Llope, R.S.Longacre, E.Loyd, N.S.Lukow, X.F.Luo, L.Ma, R.Ma, Y.G.Ma, N.Magdy, D.Mallick, S.Margetis, C.Markert, H.S.Matis, J.A.Mazer, N.G.Minaev, S.Mioduszewski, B.Mohanty, M.M.Mondal, I.Mooney, D.A.Morozov, A.Mukherjee, M.Nagy, J.D.Nam, Md.Nasim, K.Nayak, D.Neff, J.M.Nelson, D.B.Nemes, M.Nie, G.Nigmatkulov, T.Niida, R.Nishitani, L.V.Nogach, T.Nonaka, A.S.Nunes, G.Odyniec, A.Ogawa, S.Oh, V.A.Okorokov, B.S.Page, R.Pak, J.Pan, A.Pandav, A.K.Pandey, Y.Panebratsev, P.Parfenov, B.Pawlik, D.Pawlowska, H.Pei, C.Perkins, L.Pinsky, R.L.Pinter, J.Pluta, B.R.Pokhrel, G.Ponimatkin, J.Porter, M.Posik, V.Prozorova, N.K.Pruthi, M.Przybycien, J.Putschke, H.Qiu, A.Quintero, C.Racz, S.K.Radhakrishnan, N.Raha, R.L.Ray, R.Reed, H.G.Ritter, M.Robotkova, O.V.Rogachevskiy, J.L.Romero, D.Roy, L.Ruan, J.Rusnak, N.R.Sahoo, H.Sako, S.Salur, J.Sandweiss, S.Sato, W.B.Schmidke, N.Schmitz, B.R.Schweid, F.Seck, J.Seger, M.Sergeeva, R.Seto, P.Seyboth, N.Shah, E.Shahaliev, P.V.Shanmuganathan, M.Shao, T.Shao, A.I.Sheikh, D.Shen, S.S.Shi, Y.Shi, Q.Y.Shou, E.P.Sichtermann, R.Sikora, M.Simko, J.Singh, S.Singha, M.J.Skoby, N.Smirnov, Y.Sohngen, W.Solyst, P.Sorensen, H.M.Spinka, B.Srivastava, T.D.S.Stanislaus, M.Stefaniak, D.J.Stewart, M.Strikhanov, B.Stringfellow, A.A.P.Suaide, M.Sumbera, B.Summa, X.M.Sun, X.Sun, Y.Sun, Y.Sun, B.Surrow, D.N.Svirida, Z.W.Sweger, P.Szymanski, A.H.Tang, Z.Tang, A.Taranenko, T.Tarnowsky, J.H.Thomas, A.R.Timmins, D.Tlusty, T.Todoroki, M.Tokarev, C.A.Tomkiel, S.Trentalange, R.E.Tribble, P.Tribedy, S.K.Tripathy, T.Truhlar, B.A.Trzeciak, O.D.Tsai, Z.Tu, T.Ullrich, D.G.Underwood, I.Upsal, G.Van Buren, J.Vanek, A.N.Vasiliev, I.Vassiliev, V.Verkest, F.Videbaek, S.Vokal, S.A.Voloshin, F.Wang, G.Wang, J.S.Wang, P.Wang, Y.Wang, Y.Wang, Z.Wang, J.C.Webb, P.C.Weidenkaff, L.Wen, G.D.Westfall, H.Wieman, S.W.Wissink, J.Wu, Y.Wu, B.Xi, Z.G.Xiao, G.Xie, W.Xie, H.Xu, N.Xu, Q.H.Xu, Y.Xu, Z.Xu, Z.Xu, C.Yang, Q.Yang, S.Yang, Y.Yang, Z.Ye, Z.Ye, L.Yi, K.Yip, Y.Yu, H.Zbroszczyk, W.Zha, C.Zhang, D.Zhang, J.Zhang, S.Zhang, S.Zhang, X.P.Zhang, Y.Zhang, Y.Zhang, Y.Zhang, Z.J.Zhang, Z.Zhang, Z.Zhang, J.Zhao, C.Zhou, X.Zhu, M.Zurek, M.Zyzak

Global Λ-hyperon polarization in Au+Au collisions at √ s_NN = 3 GeV

doi: 10.1103/PhysRevC.104.L061901
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2021AC08      Eur.Phys.J. A 57, 261 (2021)

A.Accardi, A.Afanasev, I.Albayrak, S.F.Ali, M.Amaryan, J.R.M.Annand, J.Arrington, A.Asaturyan, H.Atac, H.Avakian, T.Averett, C.Ayerbe Gayoso, X.Bai, L.Barion, M.Battaglieri, V.Bellini, R.Beminiwattha, F.Benmokhtar, V.V.Berdnikov, J.C.Bernauer, V.Bertone, A.Bianconi, A.Biselli, P.Bisio, P.Blunden, M.Boer, M.Bondi, K.-T.Brinkmann, W.J.Briscoe, V.Burkert, T.Cao, A.Camsonne, R.Capobianco, L.Cardman, M.Carmignotto, M.Caudron, L.Causse, A.Celentano, P.Chatagnon, J.-P.Chen, T.Chetry, G.Ciullo, E.Cline, P.L.Cole, M.Contalbrigo, G.Costantini, A.D'Angelo, L.Darme, D.Day, M.Defurne, M.De Napoli, A.Deur, R.De Vita, N.D'Hose, S.Diehl, M.Diefenthaler, B.Dongwi, R.Dupre, H.Dutrieux, D.Dutta, M.Ehrhart, L.El Fassi, L.Elouadrhiri, R.Ent, J.Erler, I.P.Fernando, A.Filippi, D.Flay, T.Forest, E.Fuchey, S.Fucini, Y.Furletova, H.Gao, D.Gaskell, A.Gasparian, T.Gautam, F.-X.Girod, K.Gnanvo, J.Grames, G.N.Grauvogel, P.Gueye, M.Guidal, S.Habet, T.J.Hague, D.J.Hamilton, O.Hansen, D.Hasell, M.Hattawy, D.W.Higinbotham, A.Hobart, T.Horn, C.E.Hyde, H.Ibrahim, A.Ilyichev, A.Italiano, K.Joo, S.J.Joosten, V.Khachatryan, N.Kalantarians, G.Kalicy, B.Karky, D.Keller, C.Keppel, M.Kerver, M.Khandaker, A.Kim, J.Kim, P.M.King, E.Kinney, V.Klimenko, H.-S.Ko, M.Kohl, V.Kozhuharov, B.T.Kriesten, G.Krnjaic, V.Kubarovsky, T.Kutz, L.Lanza, M.Leali, P.Lenisa, N.Liyanage, Q.Liu, S.Liuti, J.Mammei, S.Mantry, D.Marchand, P.Markowitz, L.Marsicano, V.Mascagna, M.Mazouz, M.McCaughan, B.McKinnon, D.McNulty, W.Melnitchouk, A.Metz, Z.-E.Meziani, S.Migliorati, M.Mihovilovic, R.Milner, A.Mkrtchyan, H.Mkrtchyan, A.Movsisyan, H.Moutarde, M.Muhoza, C.Munoz Camacho, J.Murphy, P.Nadel-Turonski, E.Nardi, J.Nazeer, S.Niccolai, G.Niculescu, R.Novotny, J.F.Owens, M.Paolone, L.Pappalardo, R.Paremuzyan, B.Pasquini, E.Pasyuk, T.Patel, I.Pegg, C.Peng, D.Perera, M.Poelker, K.Price, A.J.R.Puckett, M.Raggi, N.Randazzo, M.N.H.Rashad, M.Rathnayake, B.Raue, P.E.Reimer, M.Rinaldi, A.Rizzo, Y.Roblin, J.Roche, O.Rondon-Aramayo, F.Sabatie, G.Salme, E.Santopinto, R.Santos Estrada, B.Sawatzky, A.Schmidt, P.Schweitzer, S.Scopetta, V.Sergeyeva, M.Shabestari, A.Shahinyan, Y.Sharabian, S.Sirca, E.S.Smith, D.Sokhan, A.Somov, N.Sparveris, M.Spata, H.Spiesberger, M.Spreafico, S.Stepanyan, P.Stoler, I.Strakovsky, R.Suleiman, M.Suresh, P.Sznajder, H.Szumila-Vance, V.Tadevosyan, A.S.Tadepalli, A.W.Thomas, M.Tiefenback, R.Trotta, M.Ungaro, P.Valente, M.Vanderhaeghen, L.Venturelli, H.Voskanyan, E.Voutier, B.Wojtsekhowski, M.H.Wood, S.Wood, J.Xie, W.Xiong, Z.Ye, M.Yurov, H.-G.Zaunick, S.Zhamkochyan, J.Zhang, S.Zhang, S.Zhao, Z.W.Zhao, X.Zheng, J.Zhou, C.Zorn

An experimental program with high duty-cycle polarized and unpolarized positron beams at Jefferson Lab

doi: 10.1140/epja/s10050-021-00564-y
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2021CH65      Eur.Phys.J. A 57, 330 (2021)

Y.-L.Cheng, S.Zhang, Y.-G.Ma

Collision centrality and system size dependences of light nuclei production via dynamical coalescence mechanism

doi: 10.1140/epja/s10050-021-00639-w
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2021DA10      Eur.Phys.J. A 57, 134 (2021)

P.Dasgupta, G.-L.Ma, R.Chatterjee, L.Yan, S.Zhang, Y.-G.Ma

Thermal photons as a sensitive probe of α-cluster in C + Au collisions at the BNL Relativistic Heavy Ion Collider

doi: 10.1140/epja/s10050-021-00441-8
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2021HE27      Phys.Rev. C 104, 044902 (2021)

J.He, W.B.He, Y.G.Ma, S.Zhang

Machine-learning-based identification for initial clustering structure in relativistic heavy-ion collisions

NUCLEAR REACTIONS ¹⁹⁷Au(¹²C, X), (¹⁶O, X), E=200 GeV; analyzed three-α clustered triangular structure for ¹²C and four-α clustered tetrahedral structure for ¹⁶O using Bayesian convolutional neural network (BCNN) for nonclustered and clustered configurations; predicted proportion of Woods-Saxon configuration versus true proportion of Woods-Saxon configuration with different predicted times (NPred) and amounts of mixed samples. ¹²C, ¹⁶O; calculated nucleon distributions in the transverse plane for clustered ¹²C and ¹⁶O, two-dimensional azimuthal angle and transverse momentum distributions of charged pions for nonclustered and clustered ¹²C from a single multiphase transport model (AMPT)-generated ¹²C+¹⁹⁷Au collision events.

doi: 10.1103/PhysRevC.104.044902
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2021HU08      Chin.Phys.C 45, 024003 (2021)

M.Huang, A.Bonasera, S.Zhang, H.Zheng, D.X.Wang, J.C.Wang, N.Song, X.Tang, L.Lu, G.Zhang, Z.Kohley, M.R.D.Rodrigues, Y.G.Ma, S.J.Yennello

Four α correlations in nuclear fragmentation: a game of resonances

NUCLEAR REACTIONS ⁷⁰Zn(⁷⁰Zn, X), ⁶⁴Zn(⁶⁴Zn, X), ⁶⁴Ni(⁶⁴Ni, X), E=35 MeV/nucleon; measured reaction products, Eα, Iα. ⁴He; deduced yields, correlation functions, strong resonances among α-particles.

doi: 10.1088/1674-1137/abce52
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2021LI26      Chin.Phys.C 45, 044105 (2021)

L.Liu, S.Liu, S.-S.Zhang, L.-G.Cao

Isovector giant dipole resonances in proton-rich Ar and Ca isotopes

NUCLEAR STRUCTURE ^30,32,34Ar, ^32,34,36Ca; analyzed available data; calculated energy levels, J, π, proton and neutron density distributions using Skyrme HF+BCS and HF+BCSR approximation with the SLy5 parameter set. QRPA strength distributions, proton and neutron transition densities for the PDR states and GDR states.

doi: 10.1088/1674-1137/abdfbc
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2021LI27      Chin.Phys.C 45, 044110 (2021)

L.Liu, S.Liu, S.-S.Zhang, L.-G.Cao

Systematic study of two-proton radioactivity within a Gamow-like model

RADIOACTIVITY ⁶Be, ¹²O, ¹⁶Ne, ¹⁹Mg, ⁴⁵Fe, ⁴⁸Ni, ⁵⁴Zn, ⁶⁷Kr(2p), ²²Si, ²⁶S, ³⁴Ca, ³⁶Sc, ^38,39Ti, ⁴⁰V, ⁴²Cr, ⁴⁷Co, ⁴⁹Ni, ⁵⁶Ga, ^58,59,60Ge, ⁶¹As, ¹⁰N, ²⁸Cl, ³²K, ⁵⁷Ga, ^60,62As, ⁵²Cu(2p); calculated T_1/2. Comparison with available data.

doi: 10.1088/1674-1137/abe10f
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2021LI60      Phys.Rev. C 104, 044906 (2021)

Y.-A.Li, D.-F.Wang, S.Zhang, Y.-G.Ma

System evolution of forward-backward multiplicity correlations in a multiphase transport model

doi: 10.1103/PhysRevC.104.044906
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2021LI61      Phys.Rev. C 104, 054302 (2021)

X.X.Li, L.X.Liu, W.Jiang, J.Ren, H.W.Wang, G.T.Fan, X.G.Cao, Y.Zhang, X.R.Hu, Z.R.Hao, P.Kuang, B.Jiang, X.H.Wang, J.F.Hu, J.C.Wang, D.X.Wang, S.Y.Zhang, Y.D.Liu, X.Ma, C.W.Ma, Y.T.Wang, Z.D.An, J.J.He, J.Su, L.Y.Zhang, Y.X.Yang, W.B.Liu, W.Q.Su

New experimental measurement of ^natEr(n, γ) cross sections between 1 and 100 eV

NUCLEAR REACTIONS ^{162,164,166,167,168,170}Er, ^12,13C, ¹⁹⁷Au(n, γ), E=0.001-100 keV; measured E(n), I(n), Eγ, Iγ using C₆D₆ liquid scintillator and a silicon monitor and natural Er, C and Au targets at the China spallation neutron source (CSNS) facility; deduced neutron-capture σ(E), capture yields as function of E(n), neutron resonances in Er isotopes in the 1-100 eV region. ^{162,164,166,167,168}Er; deduced energies of 43 neutron resonances (nine for ¹⁶²Er, five for ¹⁶⁴Er, three for ¹⁶⁶Er, 25 for ¹⁶⁷Er, one for ¹⁶⁸Er), cross sections, widths Γ_γ and Γ_n by R-matrix analysis. Comparison with previous experimental data, and with data in evaluated databases ENDF/B-VIII.0, ENDF/B-VII.1, JENDL-4.0, and ROSFOND-2010.

doi: 10.1103/PhysRevC.104.054302
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2021MA33      Phys.Rev. C 103, 054326 (2021)

C.Ma, Y.Y.Zong, S.Q.Zhang, J.Li, K.Wang, Y.M.Zhao, A.Arima

Mass relations of mirror nuclei in terms of Coulomb energies based on relativistic continuum Hartree-Bogoliubov calculations

ATOMIC MASSES ^18,19Ne, ^19,20,21Na, ^20,21,22,23Mg, ^{21,22,23,24,25}Al, ^{22,23,24,25,26,27}Si, ^{24,25,26,27,28,29}P, ^{27,28,29,30,31}S, ^{29,30,31,32,33}Cl, ^32,33,34,35Ar, ^{33,34,35,36,37}K, ^{35,36,37,38,39}Ca, ^38,39,40,41Sc, ^40,41,42,43Ti, ^{41,42,43,44,45}V, ^{43,44,45,46,47}Cr, ^{44,45,46,47,48,49}Mn, ^{46,47,48,49,50,51}Fe, ^{49,50,51,52,53}Co, ^{50,51,52,53,54,55}Ni, ^{53,54,55,56,57}Cu, ^56,57,58,59Zn, ^59,60,61Ga, ^60,61,62,63Ge, ^62,63,64,65As, ^65,66,67Se, ^67,68,69Br, ^69,70,71Kr, ^71,72,73Rb, ^73,74,75Sr, ^75,76,77Y, ^78,79Zr, ⁸¹Nb, ⁸³Mo, ⁸⁵Tc, ⁸⁷Ru; calculated mass excesses, S(p), S(2p) of mirror nuclei, including masses of 61 unknown proton-rich nuclei, in terms of Coulomb energies based on relativistic continuum Hartree-Bogoliubov (RCHB) method. Numerical values listed in Supplemental material of the paper. Comparison with values in AME2016 database.

doi: 10.1103/PhysRevC.103.054326
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2021PA29      Phys.Rev. C 104, 024331 (2021)

C.Pan, K.Y.Zhang, P.S.Chong, C.Heo, M.C.Ho, J.Lee, Z.P.Li, W.Sun, C.K.Tam, S.H.Wong, R.W.-Y.Yeung, T.C.Yiu, S.Q.Zhang

Possible bound nuclei beyond the two-neutron drip line in the 50 ≤ Z ≤ 70 region

NUCLEAR STRUCTURE ^{180,182,184,186,188,190,192,194,196,198,200}Ba, ^{220,222,224,226,228,230,232,234,236}Sm, ^{230,232,234,236,238,240,242,244}Gd, ^{242,244,246,248,250,252,254}Dy; calculated total energies, neutron Fermi energies, quadrupole deformation parameters β₂. ^{182,184,186,188,190,192,194,196,198}Ba, ^{224,226,228,230,232,234}Sm; calculated single-neutron levels around the neutron Fermi energy, pairing energies as function of neutron number. ¹⁸⁸Ba; estimated multi-neutron emission and the corresponding half-lives for 4n and 6n emissions as functions of the decay energy. Deformed relativistic Hartree-Bogoliubov in continuum (DRHBc) calculations with density functional PC-PK1. ^192,194,196Ba, ^{192,194,196,198,200,202,204,206,208}Ce, ²³²Sm, ^238,240Gd, ²⁵⁰Dy; predicted as bound nuclei beyond the neutron drip line, forming peninsulas of stability in the nuclear landscape.

doi: 10.1103/PhysRevC.104.024331
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2021SU19      Chin.Phys.C 45, 094101 (2021)

S.Sun, S.-S.Zhang, Z.-H.Zhang, L.-G.Cao

Effect of pairing correlation on low-lying quadrupole states in Sn isotopes

NUCLEAR STRUCTURE ^{102,104,106,108,110,112,114,116,118,120,122,124,126,128,130,132,134}Sn; calculated neutron pairing gaps, 2⁺ states energies, B(E2) in the framework of fully self-consistent Hartree-Fock+BCS plus QRPA.

doi: 10.1088/1674-1137/ac0b39
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2021WA14      Phys.Rev. C 103, 024901 (2021)

D.-F.Wang, S.Zhang, Y.-G.Ma

System size dependence of baryon-strangeness correlation in relativistic heavy ion collisions from a multiphase transport model

doi: 10.1103/PhysRevC.103.024901
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2021WA19      Phys.Rev. C 103, 034301 (2021)

E.H.Wang, J.H.Hamilton, A.V.Ramayya, C.J.Zachary, A.Lemasson, A.Navin, M.Rejmund, S.Bhattacharyya, Q.B.Chen, S.Q.Zhang, J.M.Eldridge, J.K.Hwang, N.T.Brewer, Y.X.Luo, J.O.Rasmussen, S.J.Zhu, G.M.Ter-Akopian, Yu.Ts.Oganessian, M.Caamano, E.Clement, O.Delaune, F.Farget, G.de France, B.Jacquot

Pseudospin-doublet bands and Gallagher Moszkowski doublet bands in ¹⁰⁰Y

RADIOACTIVITY ²⁵²Cf(SF); measured Eγ, γγγ-, and γγγγ-coin using Gammasphere array at LBNL. ¹⁰⁰Y; deduced levels, J, π, bands, configurations.

NUCLEAR REACTIONS ⁹Be(²³⁸U, F)¹⁰⁰Y, E=6.2 MeV/nucleon; measured Eγ, γγ-coin, A- and Z-gated γ spectra using VAMOS++ spectrometer and EXOGAM array at GANIL facility. ¹⁰⁰Y; deduced high-spin levels, J, π, rotational bands, B(M1)/B(E2), configurations, moments of inertia plots. Comparison with particle-rotor model calculations.

NUCLEAR STRUCTURE ¹⁰⁰Y; calculated potential-energy surface in the (β₂, γ) plane, levels, J, π, bands, in-band B(M1), B(E2), B(M1)/B(E2), rms components of the angular momentum versus spin. Constrained triaxial covariant density-functional theory (CDFT) and quantal particle rotor model (PRM) calculations. Comparison with experimental data.

doi: 10.1103/PhysRevC.103.034301
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2021WE03      Chin.Phys.C 45, 014105 (2021)

P.-W.Wen, S.-S.Zhang, L.G.Cao, F.-S.Zhang

Fully self-consistent calculation of β-decay half-lives within Skyrme energy density functional

RADIOACTIVITY ^22,24O, ^34,42Si, ⁵²Ca, ^68,78Ni, ⁸²Ge, ¹⁰²Sr, ^104,110Zr, ¹³²Sn, ¹⁵⁰Ce(β^-); calculated T_1/2 using Skyrme HF plus charge-exchange RPA approach with SGII, LNS, SKX, and SAMi interactions. Comparison with experimental data.

doi: 10.1088/1674-1137/abc1d1
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2021ZH18      Chin.Phys.C 45, 024002 (2021)

S.-J.Zhang, Z.-J.Hu, Z.-M.Hu, C.Han, X.-H.Bai, C.-Q.Liu, C.Huang, Q.Xie, D.-Y.Huo, K.Wu, Y.-B.Nie, Y.-Y.Ding, K.Zhang, Y.Zhang, Z.-Y.Deng, R.Guo, Z.Wei, Z.-E.Yao

Measurements of neutron energy spectra of ⁹Be(d, n)¹⁰B reaction with a thick beryllium target

NUCLEAR REACTIONS ⁹Be(d, n), E=250-300 keV; measured reaction products, En, In; deduced TOF, neutron energy spectra.

doi: 10.1088/1674-1137/abce13
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2021ZH26      Eur.Phys.J. A 57, 114 (2021)

S.Zhang, S.Xu, M.He, M.S.Smith

Neutron capture on ¹⁶O within the framework of RMF + ACCC + BCS for astrophysical simulations

NUCLEAR REACTIONS ¹⁶O(n, γ)¹⁷O, E not given; calculated energy levels, Woods-Saxon potential depths, resonance parameters, σ, Maxwellian-averaged cross section and thermonuclear reaction rate using covariant density functional theory is based on a relativistic mean field (RMF) theory with contributions from resonant orbitals included via the analytical continuation of the coupling constant (ACCC), and pairing correlations included via the resonant Bardeen-Cooper-Schrieffer (BCS) technique.

doi: 10.1140/epja/s10050-021-00434-7
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2021ZH47      Phys.Rev. C 104, L021301 (2021)

K.Zhang, X.He, J.Meng, C.Pan, C.Shen, C.Wang, S.Zhang

Predictive power for superheavy nuclear mass and possible stability beyond the neutron drip line in deformed relativistic Hartree-Bogoliubov theory in continuum

NUCLEAR STRUCTURE ^{362,364,366,368,370,372,374,376,378,380,382,384,386,388,390,392,394,396,398,400}Hs; calculated total energies relative to that of ³⁶⁶Hs, quadrupole deformations β₂, neutron Fermi energies, pairing energies. ^{366,368,370,372,374}Hs; ³⁶⁶Sg, ³⁶⁸Hs, ³⁷⁰Ds, ³⁷²Cn, ³⁷⁴Fl; calculated single-neutron energies versus occupation probabilities for Z=108 isotopes and N=260 isotones. Deformed relativistic Hartree-Bogoliubov calculations in continuum (DRHBc). Discussed stability against two- and multi-neutron emissions, nuclear fission and β^- decay modes.

ATOMIC MASSES Z=102-116, A=248-292; calculated masses for even-even super-heavy nuclei, and compared with theoretical calculations in literature using WS4 and FRDM(2012) mass models, and with evaluated experimental values in AME2020. Z=102-116, N=250-318; calculated S(2n) for even-even nuclei. Deformed relativistic Hartree-Bogoliubov calculations in continuum (DRHBc) calculations.

doi: 10.1103/PhysRevC.104.L021301
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2020AN13      Phys.Rev. C 102, 024307 (2020)

R.An, L.-S.Geng, S.-S.Zhang

Novel ansatz for charge radii in density functional theories

NUCLEAR STRUCTURE ^{16,17,18,19,20,21,22,23,24,25,26,27}O, ^{17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36}Ne, ^{19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40}Mg, ^{36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54}Ca, ^{46,47,48,49,50,51,52,53,54,55,56,57,58,59,60}Cr, ^{55,56,57,58,59,60,61,62,63,64,65,66,67,68}Ni, ^{69,70,71,72,73,74,75,76,77,78,79,80,81,82}Ge, ^{84,85,86,87,88,89,90,91,92,93,94,95,96,97,98,99,100,101,102,103,104,105,106,107,108,109,110}Zr, ^{100,101,102,103,104,105,106,107,108,109,110,111,112,113,114,115,116,117,118,119,120,121,122,123,124,125,126,127,128,129,130,131,132,133,134}Cd, ^{100,101,102,103,104,105,106,107,108,109,110,111,112,113,114,115,116,117,118,119,120,121,122,123,124,125,126,127,128,129,130,131,132,133,134,135,136,137,138}Sn, ^{179,180,181,182,183,184,185,186,187,188,189,190,191,192,193,194,195,196,197,198,199,200,201,202,203,204,205,206,207,208,209,210,211,212,213,214,215,216,217,218,219,220,221,222}Pb; calculated rms charge radii, odd-even staggering in the binding energies using the relativistic mean field model (RMF) with the pairing interaction treated by BCS method, and by adding a correction term, proportional to the number of Cooper pairs. Comparison to available experimental data, and with other theoretical calculations.

doi: 10.1103/PhysRevC.102.024307
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2020DE23      Phys.Rev. C 101, 064908 (2020)

X.-G.Deng, X.-G.Huang, Y.-G.Ma, S.Zhang

Vorticity in low-energy heavy-ion collisions

doi: 10.1103/PhysRevC.101.064908
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2020GU16      Phys.Lett. B 807, 135572 (2020)

S.Guo, C.M.Petrache, D.Mengoni, Y.H.Qiang, Y.P.Wang, Y.Y.Wang, J.Meng, Y.K.Wang, S.Q.Zhang, P.W.Zhao, A.Astier, J.G.Wang, H.L.Fan, E.Dupont, B.F.Lv, D.Bazzacco, A.Boso, A.Goasduff, F.Recchia, D.Testov, F.Galtarossa, G.Jaworski, D.R.Napoli, S.Riccetto, M.Siciliano, J.J.Valiente-Dobon, M.L.Liu, G.S.Li, X.H.Zhou, Y.H.Zhang, C.Andreoiu, F.H.Garcia, K.Ortner, K.Whitmore, A.Atac Nyberg, T.Back, B.Cederwall, E.A.Lawrie, I.Kuti, D.Sohler, T.Marchlewski, J.Srebrny, A.Tucholski

Evidence for pseudospin-chiral quartet bands in the presence of octupole correlations

NUCLEAR STRUCTURE ¹³¹Ba; analyzed available data; calculated B(E1), three pairs of nearly degenerate doublet bands using the reflection-asymmetric triaxial particle rotor model.

doi: 10.1016/j.physletb.2020.135572
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2020HE06      Eur.Phys.J. A 56, 52 (2020)

J.He, S.Zhang, Y.-G.Ma, J.Chen, C.Zhong

Clustering structure effect on Hanbury-Brown-Twiss correlation in ¹²C + ¹⁹⁷Au collisions at 200 GeV

doi: 10.1140/epja/s10050-019-00002-0
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2020HE19      Astrophys.J. 899, 133 (2020)

M.He, S.-S.Zhang, M.Kusakabe, S.Xu, T.Kajino

Nuclear Structures of ¹⁷O and Time-dependent Sensitivity of the Weak s-process to the ¹⁶O(n, γ)¹⁷O Rate

NUCLEAR REACTIONS ¹⁶O(n, γ), E(cm)<1 MeV; analyzed available data; deduced resonance parameters, total σ, reaction rates. Comparison with available data.

doi: 10.3847/1538-4357/aba7b4
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2020LI48      Phys.Rev. C 102, 054907 (2020)

Y.-A.Li, S.Zhang, Y.-G.Ma

Signatures of α-clustering in ¹⁶O by using a multiphase transport model

NUCLEAR REACTIONS ¹⁶O, ²⁰Ne, ⁴⁰Ca, ⁹⁶Zr, ¹⁹⁷Au(¹⁶O, X), ¹⁰B(¹⁰B, X), ¹²C(¹²C, X), ²⁰Ne(²⁰Ne, X), ⁴⁰Ca(⁴⁰Ca, X), E(cm)=6.37 TeV; calculated eccentricity and anisotropic flow coefficients using a multiphase transport (AMTP) model to investigate α-clustering and tetrahedral structure for ¹⁶O.

doi: 10.1103/PhysRevC.102.054907
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2020MA30      Phys.Rev. C 102, 014910 (2020)

L.Ma, Y.G.Ma, S.Zhang

Anisotropy fluctuation and correlation in central α-clustered ¹²C + ¹⁹⁷Au collisions

doi: 10.1103/PhysRevC.102.014910
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2020MA33      Phys.Lett. B 808, 135673 (2020)

Y.Z.Ma, F.R.Xu, N.Michel, S.Zhang, J.G.Li, B.S.Hu, L.Coraggio, N.Itaco, A.Gargano

Continuum and three-nucleon force in Borromean system: The ¹⁷Ne case

NUCLEAR STRUCTURE ¹⁷Ne; analyzed available data; calculated energy levels, J, π, proton-proton and proton-neutron correlation densities.

doi: 10.1016/j.physletb.2020.135673
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2020ME11      Phys.Rev. C 102, 064322 (2020)

X.Meng, S.Zhang, L.Guo, L.Geng, L.Cao

Isospin-density-dependent pairing from infinite nuclear matter to finite nuclei

ATOMIC MASSES Z=20, A=34-58; Z=28, A=48-80; Z=40, A=76-112; Z=50, A=98-140; calculated odd-even mass (OEM) staggering as a function of mass number using Skyrme Hartree-Fock plus BCS method (SHF+BCS) with the SkP force, and compared with other types of isovector and isoscalar effective pairing interactions. Comparison with and experimental data.

doi: 10.1103/PhysRevC.102.064322
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2020NA14      Phys.Rev. A 101, 042707 (2020)

B.Najjari, S.F.Zhang, X.Ma, A.B.Voitkiv

Nonradiative annihilation of a positron on bound electrons

NUCLEAR REACTIONS ¹⁹⁷Au, Pb(e⁺, X), E<1.5 MeV; calculated σ for K shells. Comparison with available data.

doi: 10.1103/PhysRevA.101.042707
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2020RE02      Nucl.Phys. A996, 121696 (2020)

Z.X.Ren, P.W.Zhao, S.Q.Zhang, J.Meng

Toroidal states in ²⁸Si with covariant density functional theory in 3D lattice space

doi: 10.1016/j.nuclphysa.2020.121696
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2020WA10      Phys.Rev. C 101, 034906 (2020)

D.-F.Wang, S.Zhang, Y.-G.Ma

Nuclear system size scan for freeze-out properties in relativistic heavy-ion collisions by using a multiphase transport model

doi: 10.1103/PhysRevC.101.034906
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2020WA16      Nucl.Instrum.Methods Phys.Res. A971, 164068 (2020)

X.Wang, Z.H.Li, Z.Liu, J.Li, H.Hua, H.Y.Lu, W.Q.Zhang, T.H.Huang, M.D.Sun, J.G.Wang, X.Y.Liu, B.Ding, Z.G.Gan, L.Ma, H.B.Yang, Z.Y.Zhang, L.Yu, J.Jiang, K.L.Wang, Y.S.Wang, M.L.Liu, C.J.Lin, L.J.Sun, N.R.Ma, H.S.Xu, X.H.Zhou, G.Q.Xiao, H.Y.Wu, C.Xu, S.Q.Zhang, X.Q.Li, R.Han, Z.Q.Chen, C.G.Wu, D.W.Luo, Y.Jin, J.Lin, D.X.Jiang, Y.L.Ye, F.S.Zhang

An effective digital pulse processing method for pile-up pulses in decay studies of short-lived nuclei

RADIOACTIVITY ²¹⁹Th(α), ^210,211Ra(IT) [from ¹⁷⁵Lu, ¹⁸⁶W, ¹⁸⁷Re(⁴⁰Ar, X), E=188 MeV]; measured decay products, Eα, Iα; deduced α spectra, proper baseline correction, standard pulse construction and plateau-region fitting, spectroscopic information of overlapping signals.

doi: 10.1016/j.nima.2020.164068
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2020WA26      Phys.Rev. C 102, 034303 (2020)

Y.Y.Wang, S.Q.Zhang

Interpretation of chiral symmetry breaking and octupole correlations in ¹²⁴Cs by the reflection-asymmetric triaxial particle rotor model

NUCLEAR STRUCTURE ¹²⁴Cs; calculated levels, J, π, energy staggering parameters for parity doublet bands, B(M1), B(E1), B(E2), B(M1)/B(E2), B(E1)/B(E2), probability profiles for the orientation of the angular momentum using the reflection-asymmetric triaxial particle rotor model (PRM) for positive-parity doublet bands. Candidate for multiple chiral doublet bands with octupole correlations. Comparison with experimental data.

doi: 10.1103/PhysRevC.102.034303
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2020XI08      Phys.Rev. C 102, 064901 (2020)

B.-S.Xi, Z.-Q.Zhang, S.Zhang, Y.-G.Ma

Searching for ⁴Li-bar via the momentum-correlation function of p-bar-³He-bar

NUCLEAR REACTIONS ¹⁹⁷Au(¹⁹⁷Au, X), E=200 GeV; calculated correlation function of antiproton and anti-³He with and without anti-⁴Li decay using the blast-wave model and the Lednicky-Lyuboshitz analytical model. ⁴Li; estimated magnitude of event number needed to detect anti-⁴Li nucleus experimentally in relativistic heavy-ion collisions.

doi: 10.1103/PhysRevC.102.064901
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2019CA04      Phys.Rev. C 99, 014606 (2019)

X.G.Cao, E.J.Kim, K.Schmidt, K.Hagel, M.Barbui, J.Gauthier, S.Wuenschel, G.Giuliani, M.R.D.Rodriguez, S.Kowalski, H.Zheng, M.Huang, A.Bonasera, R.Wada, N.Blando, G.Q.Zhang, C.Y.Wong, A.Staszczak, Z.X.Ren, Y.K.Wang, S.Q.Zhang, J.Meng, J.B.Natowitz

Examination of evidence for resonances at high excitation energy in the 7 α disassembly of ²⁸Si

NUCLEAR REACTIONS ¹²C(²⁸Si, X), (²⁸Si, 7α), E=35 MeV/nucleon; measured Eα, Iα, excitation functions for the α-conjugate exit channels using the 4π NIMROD-ISiS array for charged particle detection at the K500 superconducting cyclotron facility of Texas A and M. ²⁸Si; deduced resonances at high excitation energies, shapes of 7α events in the de-excitation of projectile-like nuclei; calculated energies, J, π, configurations, quadrupole deformation of toroidal high-spin isomers using covariant functional PC-PK1 and DD-ME2.

doi: 10.1103/PhysRevC.99.014606
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2019CA22      Phys.Rev. C 100, 054324 (2019)

L.-G.Cao, S.-S.Zhang, H.Sagawa

Quenching factor of Gamow-Teller and spin dipole giant resonances

NUCLEAR STRUCTURE ⁴⁸Ca, ⁹⁰Zr, ¹³²Sn, ²⁰⁸Pb; calculated Gamow-Teller (GT) and spin-dipole (SD) strength distributions, and sum rules of GT-, SD-, and SD+ resonances using self-consistent Hartree-Fock plus random phase approximation (RPA) method, with Skyrme forces SAMi and SAMi-T with and tensor interactions. Comparison with available experimental data.

doi: 10.1103/PhysRevC.100.054324
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Note: The following list of authors and aliases matches the search parameter S.Zhang: , S.D.ZHANG, S.F.ZHANG, S.G.ZHANG, S.J.ZHANG, S.L.ZHANG, S.N.ZHANG, S.Q.ZHANG, S.S.ZHANG, S.T.ZHANG, S.Y.ZHANG