A. Long
University of Notre Dame
14 Papers
33 Citations
A. Long is an academic researcher from University of Notre Dame. The author has contributed to research in topics: Nucleosynthesis & Nuclear astrophysics. The author has an hindex of 7, co-authored 14 publications. Previous affiliations of A. Long include Los Alamos National Laboratory.
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Papers
Determination of hexadecapole (β4) deformation of the light-mass nucleus 24Mg using quasi-elastic scattering measurements
Y. K. Gupta,Y. K. Gupta,Y. K. Gupta,B. K. Nayak,B. K. Nayak,U. Garg,Kouichi Hagino,K. B. Howard,N. Sensharma,M. Şenyiğit,M. Şenyiğit,Wanpeng Tan,Patrick O'Malley,Michael S. Smith,Ramandeep Gandhi,T. Anderson,Richard deBoer,B. Frentz,A. Gyurjinyan,O. Hall,M. R. Hall,J. Hu,Edward Lamere,Q. Liu,A. Long,Wenting Lu,Stephanie Lyons,Karen Ostdiek,Christopher Seymour,Michael Skulski,B. Vande Kolk +30 more
TL;DR: In this article, quasi-elastic scattering measurements have been performed using 16O and 24Mg projectiles off 90Zr at energies around the Coulomb barrier, and a Bayesian analysis has been carried out for 24 Mg + 90 Zr reaction.
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Measurement of the 58Ni(α,γ)62Zn reaction and its astrophysical impact
S. J. Quinn,A. Spyrou,Eduardo Bravo,Thomas Rauscher,Anna Simon,A. Battaglia,M. Bowers,B. Bucher,Clark Casarella,Manoel Couder,Paul DeYoung,Alexander Dombos,Joachim Görres,A. Kontos,Q. Li,A. Long,M. Moran,N. Paul,J. Pereira,Donald Robertson,Karl Smith,Mallory Smith,Edward Stech,R. Talwar,Wanpeng Tan,Michael Wiescher +25 more
TL;DR: In this article, the authors proposed a method to solve a set of problems in the context of artificial neural networks, and proposed an approach to solve the problem using a neural network.
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Measurement of the 90,92Zr(p,γ)91,93Nb reactions for the nucleosynthesis of elements near A=90
A. Spyrou,S. J. Quinn,Anna Simon,Thomas Rauscher,A. Battaglia,A. Best,B. Bucher,Manoel Couder,Paul DeYoung,Alexander Dombos,Xiao Fang,Joachim Görres,A. Kontos,Q. Li,L. Y. Lin,A. Long,Stephanie Lyons,Bradley S. Meyer,Amy Roberts,Daniel Robertson,Karl Smith,Mallory Smith,Edward Stech,B. Stefanek,Wanpeng Tan,X. D. Tang,Michael Wiescher +26 more
TL;DR: In this paper, the authors reported the first measurement of this reaction cross section and compared to theoretical calculations and a very good agreement with the standard non-smoker model is observed.
α -unbound levels in Ar 34 from Ar 36 (p,t) Ar 34 reaction measurements and implications for the astrophysical S 30 (α,p) Cl 33 reaction rate
A. Long,A. Long,T. Adachi,Mary Beard,G. P. A. Berg,Manoel Couder,Richard deBoer,Masanori Dozono,Joachim Görres,Hisanori Fujita,Y. Fujita,Kichiji Hatanaka,D. Ishikawa,T. Kubo,Hiroshi Matsubara,Y. Namiki,S. O'Brien,Y. Ohkuma,H. Okamura,Hooi Jin Ong,D. Patel,Yasuhiro Sakemi,Y. Shimbara,Shinji Suzuki,R. Talwar,R. Talwar,Atsushi Tamii,Alexander Volya,Tomotsugu Wakasa,R. Watanabe,Michael Wiescher,R. Yamada,Juzo Zenihiro +32 more
Experimental investigation of the 12C+12C fusion at very low energies by direct and indirect methods
Xiao Fang,B. Bucher,Sergio Almaraz-Calderon,A. Alongi,A. D. Ayangeakaa,A. Best,G. P. A. Berg,C. Cahillane,E. Dahlstrom,Richard deBoer,Martin Freer,Hisanori Fujita,Y. Fujita,Joachim Görres,Kichiji Hatanaka,A. M. Howard,T. Itoh,T. Kadoya,Takeo Kawabata,J. J. Kolata,Q. Li,Y. J. Li,B. Liu,A. Long,Y.-W. Lui,Stephanie Lyons,Yohei Matsuda,K. Miki,N. Paul,Amy Roberts,Mallory Smith,R. Talwar,Atsushi Tamii,Wanpeng Tan,X. D. Tang,Michael Wiescher,N. Yokota +36 more
- 25 Mar 2013
TL;DR: In this article, the authors developed an efficient thick-target method using large-area silicon strip detectors for measurements of the 12C+12C fusion at astrophysical energies, and further measurements at even lower energies will be performed using coincidences between a silicon detector and a Ge-detector array, at the high-current accelerator under construction at the University of Notre Dame.
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