A. I. Chilug
University of Bucharest
8 Papers
23 Citations
A. I. Chilug is an academic researcher from University of Bucharest. The author has contributed to research in topics: Nuclear fusion & Breakup. The author has an hindex of 3, co-authored 8 publications.
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Papers
Experimental study of the 13C+12C fusion reaction at deep sub-barrier energies
D. Tudor,A. I. Chilug,Mihai Straticiuc,Livius Trache,D. Chesneanu,S. Toma,D. G. Ghita,I. Burducea,Romul Margineanu,A. Pantelica,Claudia Gomoiu,Na Zhang,X.D. Tang,Y.J. Li +13 more
- 01 Apr 2016
TL;DR: In this paper, the authors measured the 13C+12C reaction in the Gamow window with an activation method for energies down to Ecm=2.5 MeV using 13C beams from the Bucharest 3 MV tandetron and gamma-ray deactivation measurements in low and ultralow background laboratories.
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Activation measurements of 13C+12C fusion cross section at deep sub-barrier energies in IFIN-HH
D. Tudor,A. I. Chilug,I. C. Stefanescu,M. Straticiuc,I. Burducea,Livius Trache,I. M. Focsa,D. G. Ghita,Romul Margineanu,A. Pantelica,Claudia Gomoiu,Na Zhang,X.D. Tang,H. S. Chen +13 more
- 30 Jun 2017
TL;DR: In this article, the authors studied 13C+12C fusion with an activation method for energies from Ec.m.= 2.2 to 5.3 MeV, using 13C beams from the Bucharest 3 MV Tandetron on thick graphite targets.
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Study of the 9C breakup through NP1412-SAMURAI29R1 experiment
A. I. Chilug,V. Panin,D. Tudor,Livius Trache,I. C. Stefanescu,A. Spiridon,Antti Saastamoinen,Z. Halasz,T. Motobayashi,Yasuhiro Togano,H. Baba,Yuya Kubota,Tomohiro Uesaka,K. Yoneda,Hideaki Otsu,D. S. Ahn,Toshio Kobayashi,L. Stuhl,Masaki Sasano,Shinsuke Ota,Naoki Fukuda,H. Takeda,H. Suzuki,Y. Shimizu,H. N. Liu,Y. L. Sun,T. Isobe,Julien Gibelin,P. J. Li,Z. Elekes,J. Zenihiro,F. M. Marques,M.N. Harakeh,H. Murakami,G. Kiss,N. Zhang,A. Kurihara,Masahiro Yasuda,T. Nakamura,S. Park,D. Kim,Zaihong Yang,T. Harada,H. Sato,I. S. Hahn,K. Y. Chae +45 more
- 20 Feb 2019
TL;DR: In this article, a combination of nuclear and Coulomb dissociation measurements at energy of 160 A MeV was used to evaluate the radiative proton capture cross section at low energies and from there the reaction rate.
Nuclear Breakup and Coulomb Dissociation of $^{9}$C Nucleus Studied at RIBF RIKEN
A. I. Chilug,V. Panin,D. Tudor,Livius Trache,I. C. Stefanescu,A. E. Spiridon,Antti Saastamoinen,H. Baba,Yasuhiro Togano,L. Stuhl,T. Kobayashi,H. Otsu,K. Yoneda,Y. Kubota,D. S. Ahn,Naoki Fukuda,H. Takeda,H. Suzuki,Y. Shimizu,T. Motobayashi,T. Uesaka,Zoltán Halász,Z. Elekes,Shuichi Ota,M. Sasano,H. N. Liu,Y. L. Sun,T. Isobe,P. J. Li,J. Gibelin,F. M. Marques,J. Zenihiro,G. G. Kiss,N. T. Zhang,M.N. Harakeh,H. Murakami,D. H. Kim,A. Kurihara,Masahiro Yasuda,Takashi Nakamura,S. Y. Park,Z. Yang,T. Harada,Masanori Nishimura,H. Sato,I. S. Hahn,K. Y. Chae,F. Carstoiu,A. N. Petrovici +48 more
- 16 Jul 2020
TL;DR: In the SAMURAI-29R1 experiment as discussed by the authors, the 9C breakup was studied through exclusive measurements at energies around 160 ameV for 9C, in order to evaluate the astrophysical S18 factor for the inverse process 8B(p,γ)9C at energies in the region of astrophysical interest.
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