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NSR database version of April 27, 2024.

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2023AB32      Phys.Rev. D 108, 092009 (2023)

K.Abe, N.Akhlaq, R.Akutsu, A.Ali, S.Alonso Monsalve, C.Alt, C.Andreopoulos, M.Antonova, S.Aoki, T.Arihara, Y.Asada, Y.Ashida, E.T.Atkin, M.Barbi, G.J.Barker, G.Barr, D.Barrow, M.Batkiewicz-Kwasniak, V.Berardi, L.Berns, S.Bhadra, A.Blanchet, A.Blondel, S.Bolognesi, T.Bonus, S.Bordoni, S.B.Boyd, A.Bravar, C.Bronner, S.Bron, A.Bubak, M.Buizza Avanzini, J.A.Caballero, N.F.Calabria, S.Cao, D.Carabadjac, A.J.Carter, S.L.Cartwright, M.P.Casado, M.G.Catanesi, A.Cervera, J.Chakrani, D.Cherdack, P.S.Chong, G.Christodoulou, A.Chvirova, M.Cicerchia, J.Coleman, G.Collazuol, L.Cook, A.Cudd, C.Dalmazzone, T.Daret, Yu.I.Davydov, A.De Roeck, G.De Rosa, T.Dealtry, C.C.Delogu, C.Densham, A.Dergacheva, F.Di Lodovico, S.Dolan, D.Douqa, T.A.Doyle, O.Drapier, J.Dumarchez, P.Dunne, K.Dygnarowicz, A.Eguchi, S.Emery-Schrenk, G.Erofeev, A.Ershova, G.Eurin, D.Fedorova, S.Fedotov, M.Feltre, A.J.Finch, G.A.Fiorentini Aguirre, G.Fiorillo, M.D.Fitton, J.M.Franco Patino, M.Friend, Y.Fujii, Y.Fukuda, Y.Furui, L.Giannessi, C.Giganti, V.Glagolev, M.Gonin, J.Gonzalez Rosa, E.A.G.Goodman, A.Gorin, M.Grassi, M.Guigue, D.R.Hadley, J.T.Haigh, P.Hamacher-Baumann, D.A.Harris, M.Hartz, T.Hasegawa, S.Hassani, N.C.Hastings, Y.Hayato, D.Henaff, M.Hogan, J.Holeczek, A.Holin, T.Holvey, N.T.Hong Van, T.Honjo, A.K.Ichikawa, M.Ikeda, T.Ishida, M.Ishitsuka, H.T.Israel, A.Izmaylov, M.Jakkapu, B.Jamieson, S.J.Jenkins, C.Jesus-Valls, J.J.Jiang, J.Y.Ji, P.Jonsson, S.Joshi, C.K.Jung, P.B.Jurj, M.Kabirnezhad, A.C.Kaboth, T.Kajita, H.Kakuno, J.Kameda, S.P.Kasetti, Y.Kataoka, T.Katori, M.Kawaue, E.Kearns, M.Khabibullin, A.Khotjantsev, T.Kikawa, S.King, V.Kiseeva, J.Kisiel, H.Kobayashi, T.Kobayashi, L.Koch, S.Kodama, A.Konaka, L.L.Kormos, Y.Koshio, T.Koto, K.Kowalik, Y.Kudenko, Y.Kudo, S.Kuribayashi, R.Kurjata, T.Kutter, M.Kuze, M.La Commara, L.Labarga, K.Lachner, J.Lagoda, S.M.Lakshmi, M.Lamers James, M.Lamoureux, A.Langella, J.-F.Laporte, D.Last, N.Latham, M.Laveder, L.Lavitola, M.Lawe, Y.Lee, C.Lin, S.-K.Lin, R.P.Litchfield, S.L.Liu, W.Li, A.Longhin, K.R.Long, A.Lopez Moreno, L.Ludovici, X.Lu, T.Lux, L.N.Machado, L.Magaletti, K.Mahn, M.Malek, M.Mandal, S.Manly, A.D.Marino, L.Marti-Magro, D.G.R.Martin, M.Martini, J.F.Martin, T.Maruyama, T.Matsubara, V.Matveev, C.Mauger, K.Mavrokoridis, E.Mazzucato, N.McCauley, J.McElwee, K.S.McFarland, C.McGrew, J.McKean, A.Mefodiev, G.D.Megias, P.Mehta, L.Mellet, C.Metelko, M.Mezzetto, E.Miller, A.Minamino, O.Mineev, S.Mine, M.Miura, L.Molina Bueno, S.Moriyama, S.Moriyama, P.Morrison, Th.A.Mueller, D.Munford, L.Munteanu, K.Nagai, Y.Nagai, T.Nakadaira, K.Nakagiri, M.Nakahata, Y.Nakajima, A.Nakamura, H.Nakamura, K.Nakamura, K.D.Nakamura, Y.Nakano, S.Nakayama, T.Nakaya, K.Nakayoshi, C.E.R.Naseby, T.V.Ngoc, V.Q.Nguyen, K.Niewczas, S.Nishimori, Y.Nishimura, K.Nishizaki, T.Nosek, F.Nova, P.Novella, J.C.Nugent, H.M.O'Keeffe, L.O'Sullivan, T.Odagawa, W.Okinaga, K.Okumura, T.Okusawa, N.Ospina, Y.Oyama, V.Palladino, V.Paolone, M.Pari, J.Parlone, J.Pasternak, M.Pavin, D.Payne, G.C.Penn, D.Pershey, L.Pickering, C.Pidcott, G.Pintaudi, C.Pistillo, B.Popov, K.Porwit, M.Posiadala-Zezula, Y.S.Prabhu, F.Pupilli, B.Quilain, T.Radermacher, E.Radicioni, B.Radics, M.A.Ramirez, P.N.Ratoff, M.Reh, C.Riccio, E.Rondio, S.Roth, N.Roy, A.Rubbia, A.C.Ruggeri, C.A.Ruggles, A.Rychter, K.Sakashita, F.Sanchez, C.M.Schloesser, K.Scholberg, M.Scott, Y.Seiya, T.Sekiguchi, H.Sekiya, D.Sgalaberna, A.Shaikhiev, F.Shaker, M.Shiozawa, W.Shorrock, A.Shvartsman, N.Skrobova, K.Skwarczynski, D.Smyczek, M.Smy, J.T.Sobczyk, H.Sobel, F.J.P.Soler, Y.Sonoda, A.J.Speers, R.Spina, I.A.Suslov, S.Suvorov, A.Suzuki, S.Y.Suzuki, Y.Suzuki, M.Tada, S.Tairafune, S.Takayasu, A.Takeda, Y.Takeuchi, K.Takifuji, H.K.Tanaka, M.Tani, A.Teklu, V.V.Tereshchenko, N.Thamm, L.F.Thompson, W.Toki, C.Touramanis, T.Towstego, K.M.Tsui, T.Tsukamoto, M.Tzanov, Y.Uchida, M.Vagins, D.Vargas, M.Varghese, G.Vasseur, C.Vilela, E.Villa, W.G.S.Vinning, U.Virginet, T.Vladisavljevic, T.Wachala, J.G.Walsh, Y.Wang, L.Wan, D.Wark, M.O.Wascko, A.Weber, R.Wendell, M.J.Wilking, C.Wilkinson, J.R.Wilson, K.Wood, C.Wret, J.Xia, Y.-h.Xu, K.Yamamoto, T.Yamamoto, C.Yanagisawa, G.Yang, T.Yano, K.Yasutome, N.Yershov, U.Yevarouskaya, M.Yokoyama, Y.Yoshimoto, N.Yoshimura, M.Yu, R.Zaki, A.Zalewska, J.Zalipska, K.Zaremba, G.Zarnecki, X.Zhao, T.Zhu, M.Ziembicki, E.D.Zimmerman, M.Zito, S.Zsoldos

Measurements of the ν_μ and ν-bar_μ-induced coherent charged pion production cross sections on ¹²C by the T2K experiment

NUCLEAR REACTIONS ¹²C(ν, μ^-), (ν-bar, μ⁺), E ∼ 0.8 GeV; measured reaction products; deduced coherent charged pion production σ in the Tokai-to-Kamioka experiment.

doi: 10.1103/PhysRevD.108.092009
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2023MA05      Phys.Rev. C 107, 014601 (2023)

A.Mahato, D.Singh, N.Sharma, P.K.Giri, S.B.Linda, H.Kumar, S.A.Tali, A.Ali, M.Afzal Ansari, N.K.Deb, N.P.M.Sathik, S.Kumar, R.Kumar, S.Muralithar, R.P.Singh

Disentangling fractional momentum transfer in the ¹⁹F + ¹⁵⁴Sm system

NUCLEAR REACTIONS ¹⁵⁴Sm(¹⁹F, 5n)¹⁶⁸Lu, (¹⁹F, 6n)¹⁶⁷Lu, (¹⁹F, 5np)¹⁶⁷Yb, (¹⁹F, 3nα)¹⁶⁶Tm, (¹⁹F, 4nα)¹⁶⁵Tm, (¹⁹F, 5nα)¹⁶⁴Tm, (¹⁹F, 3n2α)¹⁶²Ho, (¹⁹F, 4n2α)¹⁶¹Ho, E=107 MeV; measured reaction products, evaporation residues (ERs), Eγ, Iγ; deduced ERs yields as a function of range in stopping medium, forward recoil range distributions (FRRDs) for the evaporation residues, range integrated σ, relative contributions of complete and incomplete fusion, mean ranges in stopping medium. Discussed linear momentum transfer from the projectile to target accounting also for projectile breakup α+¹⁵N and 2α+¹¹B. Activation technique. Beam from 15UD Pelletron accelerator facility at Inter University Accelerator Center (IUAC, India). ERs were collected with a stack of 26 aluminium catcher foils of different thicknesses placed immediately after the target. The decay of ERs on the catcher foils measured with HPGe detector.

doi: 10.1103/PhysRevC.107.014601
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2022AL13      Int.J.Mod.Phys. E31, 2250041 (2022)

A.M.Ali

Secondary emission in pre-equilibrium reaction effects on differential cross-section

NUCLEAR REACTIONS ²⁷Al, ⁵⁶Co, ²⁰⁹Bi(p, x), (n, X), (p, n), E=10, 14, 16, 25, 57 MeV; calculated σ(E), σ(θ, E) using PRECO-2006. The exciton model (EM) and Feshbach-Kerman-Konin (FKK) theory.

doi: 10.1142/S0218301322500410
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2022MA34      Phys.Rev. C 106, 014613 (2022)

A.Mahato, D.Singh, N.Sharma, P.K.Giri, S.B.Linda, H.Kumar, S.A.Tali, M.Afzal Ansari, A.Ali, N.K.Deb, N.P.M.Sathik, S.Kumar, R.Kumar, S.Muralithar, R.P.Singh

Effects of entrance channels on breakup fusion induced by ¹⁹F projectiles

NUCLEAR REACTIONS ¹⁵⁴Sm(¹⁹F, X), (¹⁹F, 4n), (¹⁹F, 5n), (¹⁹F, 6n), (¹⁹F, 5np), (¹⁹F, 3nα), (¹⁹F, 4nα), (¹⁹F, 5nα), (¹⁹F, 3n2α), (¹⁹F, 4n2α)E=78-110 MeV; measured Eγ, Iγ; deduced complete fusion and evaporation residues production σ(E), critical angular momentum, excitation functions for complete, incomplete fusion and total fusion. Incomplete fusion strength functions systematics for ¹⁶O, ¹⁹F, ^20Ne induced reactions. Activation technique measurement with HPGe detector. Comparison to statistical model calculations (PACE-4 code) and coupled channels (CCFULL code). 15UD Pelletron accelerator facility at the Inter-University Accelerator Center (IUAC), New Delhi.

doi: 10.1103/PhysRevC.106.014613
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetD6439.

2020AL15      Rom.J.Phys. 65, 305 (2020)

A.H.Ali, B.S.Hameed

Calculation the Magnetic Dipole Moments and Quadrupole Moments for Some Exotic Chromium Isotopes Using Different Interactions

NUCLEAR MOMENTS ^{49,50,51,52,53,54}Cr; calculated magnetic dipole moments, the electric quadrupole moments in the shell model.

2020AL28      Phys.Scr. 95, 105306 (2020)

A.H.Ali, A.A.Alzubadi

Calculation magnetic dipole moments, electric quadrupole moments and form factors for some Ti isotopes

NUCLEAR STRUCTURE ^{43,44,45,46,47,48,49,50,52}Ti; calculated magnetic dipole, electric quadrupole moments, form factors using the shell model space. Comparison with available data.

doi: 10.1088/1402-4896/abbaf4
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2020TA07      Prog.Theor.Exp.Phys. 2020, 041D02 (2020)

T.Tanaka, K.Hagiwara, E.Gazzola, A.Ali, I.Ou, T.Sudo, P.K.Das, M.S.Reen, R.Dhir, Y.Koshio, M.Sakuda, A.Kimura, S.Nakamura, N.Iwamoto, H.Harada, G.Collazuol, S.Lorenz, M.Wurm, W.Focillon, M.Gonin, T.Yano

Gamma-ray spectra from thermal neutron capture on gadolinium-155 and natural gadolinium

NUCLEAR REACTIONS ¹⁵⁵Gd, Gd(n, γ), E thermal; measured reaction products, Eγ, Iγ; deduced capture γ-ray energies, transition probabilities, nuclear level densities, photon strength function parameters. Comparison with available data, theoretical calculations.

doi: 10.1093/ptep/ptaa015
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2019GI15      Phys.Rev. C 100, 024621 (2019)

P.K.Giri, D.Singh, A.Mahato, S.B.Linda, H.Kumar, S.A.Tali, S.Parasari, A.Ali, M.Afzal Ansari, R.Dubey, R.Kumar, S.Muralithar, R.P.Singh

Systematic study of low-energy incomplete-fusion dynamics in the ¹⁶O + ¹⁴⁸Nd system: Role of target deformation

NUCLEAR REACTIONS ¹⁴⁸Nd(¹⁶O, 3n)¹⁶¹Er, ¹⁴⁸Nd(¹⁶O, 5n)¹⁵⁹Er, ¹⁴⁸Nd(¹⁶O, 6n)¹⁵⁸Er, ¹⁴⁸Nd(¹⁶O, 2np)¹⁶¹Ho, ¹⁴⁸Nd(¹⁶O, 3np)¹⁶⁰Ho, ¹⁴⁸Nd(¹⁶O, 4np)¹⁵⁹Ho, ¹⁴⁸Nd(¹⁶O, 3nα)¹⁵⁷Dy, ¹⁴⁸Nd(¹⁶O, 5nα)¹⁵⁵Dy, ¹⁴⁸Nd(¹⁶O, 4npα)¹⁵⁵Tb, E=67.2, 72.4, 77.4, 84.1, 89.1, 94.7, 99.9 MeV; measured Eγ, Iγ; deduced σ(E), incomplete fusion (ICF) σ(E), effect of target deformation; analyzed previous experimental σ(E) data for many other systems for fraction of incomplete fusion. Measured σ compared with statistical model code PACE-4, and with previous experimental data. Experiment was performed using the 15UD Pelletron accelerator facility at Inter-University Accelerator Centre (IUAC), New Delhi, India.

doi: 10.1103/PhysRevC.100.024621
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetD6368.

2019HA10      Prog.Theor.Exp.Phys. 2019, 023D01 (2019)

K.Hagiwara, T.Yano, T.Tanaka, M.S.Reen, P.K.Das, S.Lorenz, Iw.Ou, T.Sudo, Y.Yamada, T.Mori, T.Kayano, R.Dhir, Y.Koshio, M.Sakuda, A.Kimura, S.Nakamura, N.Iwamoto, H.Harada, M.Wurm, W.Focillon, M.Gonin, A.Ali, G.Collazuol

Gamma-ray spectrum from thermal neutron capture on gadolinium-157

NUCLEAR REACTIONS ¹⁵⁷Gd(n, γ), E thermal; measured reaction products, Eγ, Iγ; deduced γ-ray energies and intensities. Comparison with available data.

doi: 10.1093/ptep/ptz002
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Data from this article have been entered in the XUNDL database. For more information, click here.

2019KU07      Phys.Rev. C 99, 034610 (2019)

H.Kumar, S.A.Tali, M.Afzal Ansari, D.Singh, R.Ali, A.Ali, S.Parashari, P.K.Giri, S.B.Linda, R.Kumar, R.P.Singh, S.Muralithar

Systematic study of incomplete-fusion dynamics below 8 MeV/nucleon energy

NUCLEAR REACTIONS ¹⁷⁵Lu(¹³C, 4n), (¹³C, 5n), (¹³C, 6n), (¹³C, 4np), (¹³C, 5np), (¹³C, nα), (¹³C, 3nα), (¹³C, 5nα), (¹³C, 2n2α), (¹³C, 3n2α), (¹³C, 4n2α)¹⁸²Ir/¹⁸³Ir/¹⁸⁴Ir/¹⁸²Os/¹⁸³Os/^183mOs/¹⁷⁹Re/¹⁸¹Re/¹⁸³Re/¹⁷⁶Ta/¹⁷⁷Ta/^178mTa, E AP 88 MeV; measured Eγ, Iγ, σ for evaporation residues by γ-activation method, and forward recoil range distributions (FRRDs) at IUAC, New Delhi; deduced most probable mean ranges, normalized peak widths for residues produced via complete fusion (CF), and/or incomplete fusion (ICF), relative contribution of CF and/or ICF components; calculated Fusion l-distributions for ¹⁷⁵Lu(¹²C, X), (¹³C, X), E=88 MeV systems using the CCFULL code. Comparison with results from previous experimental data for incomplete fusion fraction in ¹⁶⁹Tm, ¹⁶⁵Ho, ¹⁵⁹Tb, ¹¹⁵In(¹²C, X), (¹³C, X), (¹⁶O, X), and ²⁰⁹Bi(⁶Li, X), (⁷Li, X) systems, and deduced no systematic trend for dependency on the target deformation parameter β₂ in the study of the incomplete fusion (ICF) process.

doi: 10.1103/PhysRevC.99.034610
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2019RE08      Phys.Rev. C 100, 024615 (2019)

M.S.Reen, I.Ou, T.Sudo, D.Fukuda, T.Mori, A.Ali, Y.Koshio, M.Sakuda, A.Tamii, N.Aoi, M.Yosoi, E.Ideguchi, T.Suzuki, T.Yamamoto, C.Iwamoto, T.Kawabata, S.Adachi, M.Tsumura, M.Murata, T.Furuno, H.Akimune, T.Yano, T.Suzuki, R.Dhir

Measurement of γ rays from giant resonances excited by the ¹²C(p, p') reaction at 392 MeV and 0 degrees

NUCLEAR REACTIONS ¹²C(p, p')¹²C, E=392 MeV; measured Eγ, Iγ, Ep, Ip, pγ-coin, σ(θ) from 0-3.5° using magnetic spectrometer Grand Raiden and NaI(Tl) detectors at the Research Center for Nuclear Physics (RCNP), Osaka University, Japan; deduced differential cross section, γ-ray emission probability; cross section decomposed into spin-flip and non-spin-flip components. Angular distributions compared with DWBA calculations. ¹²C; deduced levels, resonances in the 16-32 MeV range, J, π, widths, σ, γ-ray spectra from giant resonances in ¹²C. ¹¹B, ¹¹C; deduced levels, J, π, γ-ray energies and emission probabilities in daughter nuclei ¹¹B and ¹¹C populated from the decay of ¹²C resonances. Comparison of the measured γ-ray emission probabilities with statistical model calculation based on the Hauser-Feshbach formalism.

doi: 10.1103/PhysRevC.100.024615
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetE2639. Data from this article have been entered in the XUNDL database. For more information, click here.

2019TA15      Phys.Rev. C 100, 024622 (2019)

S.A.Tali, H.Kumar, M.Afzal Ansari, A.Ali, D.Singh, R.Ali, P.K.Giri, S.B.Linda, R.Kumar, S.Parashari, S.Muralithar, R.P.Singh

Systematic study of the break-up fusion process in the ¹²C + ¹⁶⁵Ho system and interplay of entrance channel parameters

NUCLEAR REACTIONS ¹⁶⁵Ho(¹²C, 3n)¹⁷⁴Ta, ¹⁶⁵Ho(¹²C, 4n)¹⁷³Ta, ¹⁶⁵Ho(¹²C, 5n)¹⁷²Ta, ¹⁶⁵Ho(¹²C, 6n)¹⁷¹Ta, ¹⁶⁵Ho(¹²C, 3np)¹⁷³Hf, ¹⁶⁵Ho(¹²C, 5np)¹⁷¹Hf, ¹⁶⁵Ho(¹²C, nα)¹⁷²Lu, ¹⁶⁵Ho(¹²C, 2nα)¹⁷¹Lu, ¹⁶⁵Ho(¹²C, 3nα)¹⁷⁰Lu, ¹⁶⁵Ho(¹²C, 4nα)¹⁶⁹Lu, ¹⁶⁵Ho(¹²C, 3npα)¹⁶⁹Yb, ¹⁶⁵Ho(¹²C, 2n2α)¹⁶⁷Tm, ¹⁶⁵Ho(¹²C, 3n2α)¹⁶⁶Tm, E=57.39, 61.78, 66.13, 70.38, 74.59, 78.88, 83.05, 87.38 MeV; measured Eγ, Iγ; deduced σ(E), fraction of incomplete fusion (ICF); analyzed previous experimental σ(E) data for many other systems for fraction of incomplete fusion. Measured σ compared with statistical model code PACE-4, and with previous experimental data. Experiment was performed using the 15UD Pelletron accelerator facility at Inter-University Accelerator Centre (IUAC), New Delhi, India.

doi: 10.1103/PhysRevC.100.024622
Citations: PlumX Metrics
Data from this article have been entered in the EXFOR database. For more information, access X4 datasetD6359.

2018KU04      Eur.Phys.J. A 54, 47 (2018)

H.Kumar, S.A.Tali, M.A.Ansari, D.Singh, R.Ali, Ka.Kumar, N.P.M.Sathik, A.Ali, S.Parashari, R.Dubey, I.Bala, R.Kumar, R.P.Singh, S.Muralithar

Sensitivity of low-energy incomplete fusion to various entrance-channel parameters

NUCLEAR REACTIONS ¹⁷⁵Lu(¹²C, x), E≈88 MeV; measured Eγ, Iγ(t) from catcher Al foils using precalibrated HPGe and FRRD (Forward Recoil Range Distribution), LMT (Linear Momentum Transfer); deduced contributions of IFC (InComplete Fusion) and CF (Complete Fusion) σ, discrete states of ER T_1/2. Compared with available data.

doi: 10.1140/epja/i2018-12483-8
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2018RA13      Phys.Rev. C 97, 064312 (2018)

R.A.Radhi, A.A.Alzubadi, A.H.Ali

Magnetic dipole moments, electric quadrupole moments, and electron scattering form factors of neutron-rich sd-pf cross-shell nuclei

NUCLEAR MOMENTS ³⁴Al, ³⁵Si, ^38,40,43S, ^38,44Cl, ^39,40,41,43Ar, ^{40,41,42,43,44,45,46,47,49,51}K; calculated g factors, magnetic dipole moments with free g factor or effective g factor, electric quadrupole moments with core polarization (CP) or Bohr-Mottelson (BM) effective charges. ⁴²Si, ⁴⁴S, ⁴⁶Ar, ⁴⁸Ca; calculated electric quadrupole moments. ^27,34Al, ³⁵Si, ⁴³S, ³⁸Cl, ³⁹Ar, ⁴⁰K; calculated elastic magnetic form factors with contributions from multipoles, longitudinal C2 form factors with contributions form CP and model space (MS) effects. Shell model calculations for sd-pf cross-shell nuclei. Comparison with available experimental values.

doi: 10.1103/PhysRevC.97.064312
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2018SI15      Phys.Rev. C 97, 064610 (2018)

D.Singh, S.B.Linda, P.K.Giri, A.Mahato, R.Tripathi, H.Kumar, S.A.Tali, S.Parashari, A.Ali, Ra.Dubey, M.Afzal Ansari, R.Kumar, S.Muralithar, R.P.Singh

Measurement of excitation functions of evaporation residues in the ¹⁶O + ¹²⁴Sn reaction and investigation of the dependence of incomplete fusion dynamics on entrance channel parameters

NUCLEAR REACTIONS ¹²⁴Sn(¹⁶O, 3n), (¹⁶O, 5n), (¹⁶O, 7n), (¹⁶O, 6np), (¹⁶O, 3nα), (¹⁶O, 5nα), (¹⁶O, 7nα), (¹⁶O, pα), (¹⁶O, 3npα), (¹⁶O, n2α), (¹⁶O, p2α), E=3-7 MeV/nucleon; measured Iγ, Eγ, evaporation residues populated from complete fusion and incomplete fusion reactions, σ(E) by activation method, and incomplete fusion fractions at 15UD Pelletron heavy ion accelerator facility of IUAC, New Delhi. Comparison with theoretical excitation functions using PACE-4 code, and with previous experimental results. ^{133,133m,135,137,137m}Ce, ¹³³La, ^{129,129m,131,131m,133m}Ba, ¹³¹I, ^131mXe, ^132,135mCs; measured γ spectra from isotopes produced in different reaction channels.

doi: 10.1103/PhysRevC.97.064610
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetD6341.

2018TA03      Nucl.Phys. A970, 208 (2018)

S.A.Tali, H.Kumar, M.Afzal Ansari, A.Ali, D.Singh, R.Ali, P.K.Giri, S.B.Linda, S.Parashari, R.Kumar, R.P.Singh, S.Muralithar

Study of incomplete fusion reaction dynamics in ¹³C + ¹⁶⁵Ho system and its dependence on various entrance channel parameters

NUCLEAR REACTIONS ¹⁶⁵Ho(¹³C, x), E=4-7 MeV/nucleon; measured ER (Evaporation Residues) activation off-line Eγ, Iγ using HPGe coupled to CAMAC-based data acquisition system CANDLE; deduced γ-ray energy spectra. ¹⁷⁴Ta; deduced T_1/2, σ; calculated σ. ^166,167Tm, ¹⁶⁹Yb, ¹⁷³Hf, ^{169,170,171,172}Lu, ^{172,173,174,175}Ta; deduced state, J, π, γ-ray energy Eγ, branching ratio, σ, incomplete fusion fraction vs A_targ/(A_proj+A_targ); calculated σ. Calculations done using statistical code PACE4. Incomplete fusion fraction compared also with published data from ¹⁶⁵Ho(¹²C, x), (¹⁶O, x), (²⁰Ne, x), E=4-7 MeV/nucleon.

doi: 10.1016/j.nuclphysa.2017.11.012
Citations: PlumX Metrics
Data from this article have been entered in the EXFOR database. For more information, access X4 datasetD6332.

2017KU05      Nucl.Phys. A960, 53 (2017)

H.Kumar, S.A.Tali, M.Afzal Ansari, D.Singh, R.Ali, K.Kumar, N.P.M.Sathik, S.Parashari, A.Ali, R.Dubey, I.Bala, R.Kumar, R.P.Singh, S.Muralithar

Investigation of incomplete fusion dynamics at energy 4-8 MeV/nucleon

NUCLEAR REACTIONS ¹⁷⁵Lu(¹²C, xn), (¹²C, xnp), (¹²C, xnα), (¹²C, xn2α), (¹³C, xn), (¹³C, xnp), (¹³C, xnα), (¹³C, xn2α), E=4-8 MeV/nucleon; measured Eγ, Iγ, γγ-coin; deduced residues, γ transitions, γ-ray intensity, T_1/2, levels, J, π, σ, α-decay Q value systematics; calculated σ using statistical (Hauser-Feshbach) model code PACE-4; deduced ICF (InComplete Fusion) fraction systematics with projectile-target mass asymmetry.

doi: 10.1016/j.nuclphysa.2017.01.009
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetD6303.

2010AL26      Phys.Atomic Nuclei 73, 2083 (2010); Yad.Fiz. 73, 2139 (2010)

A.Ali, A.V.Borisov, D.V.Zhuridov

Mechanisms of neutrinoless double-beta decay: A comparative analysis of several nuclei

RADIOACTIVITY ⁷⁶Ge, ⁸²Se, ¹⁰⁰Mo, ¹³⁰Te, ¹³⁶Xe(2β^-); calculated decay constant for neutrinoless mode. QRPA model.

doi: 10.1134/S1063778810120136
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2005AL48      Yad.Fiz. 68, 2123 (2005); Phys.Atomic Nuclei 68, 2061 (2005)

A.Ali, A.V.Borisov, D.V.Zhuridov

Heavy Majorana Neutrinos in Dilepton Production in Deep-Inelastic Lepton-Proton Scattering

NUCLEAR REACTIONS ¹H(e⁺, e⁺'X), E=high; calculated lepton-pair production σ, role of heavy Majorana neutrinos.

doi: 10.1134/1.2149085
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2001AL32      Eur.Phys.J. C 21, 123 (2001)

A.Ali, A.V.Borisov, N.B.Zamorin

Majorana Neutrinos and Same-Sign Dilepton Production at LHC and in Rare Meson Decays

NUCLEAR REACTIONS ¹H(p, X), E(cm)=14 TeV; calculated same-sign dilepton production σ(E), detection limits.

doi: 10.1007/s100520100702
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1991AL18      Phys.Lett. 266B, 117 (1991)

A.Ali, V.M.Braun, G.Hiller

Asymptotic Solutions of the Evolution Equation for the Polarized Nucleon Structure Function g₂(x, Q²)

doi: 10.1016/0370-2693(91)90753-D
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Note: The following list of authors and aliases matches the search parameter A.Ali: , A.H.ALI, A.M.ALI