NSR Query Results
Output year order : Descending NSR database version of April 27, 2024. Search: Author = M.N.Alam Found 8 matches. 2024CH09 Appl.Radiat.Isot. 204, 111128 (2024) S.Chattopadhyay, L.Barua, D.G.Mahesh, Sh.Ash, A.Mitra, S.S.Das, S.Singha, M.N.Alam, Madhusmita, S.Roy, P.Dhang, M.Jain Production of pharmaceutical grade [201Tl]Thallous chloride using 30 MeV cyclotron NUCLEAR REACTIONS 203Tl(p, X)201Pb/201Tl, E=28 MeV; measured reaction products, Eγ, Iγ; deduced yields. 30 MeV IBA cyclotron.
doi: 10.1016/j.apradiso.2023.111128
2023AL07 Int.J.Mod.Phys. E32, 2350009 (2023) M.Alam, M.Hasan, S.H.Mondal, Md.A.Khan Low-lying bound and resonance states in 61ΛCa and 62ΛΛ Ca NUCLEAR STRUCTURE 61,62Ca; calculated the energy, and wavefunctions of the low-lying bound and resonance states of hypernuclei. Comparison with available data.
doi: 10.1142/S021830132350009X
2022KH03 Eur.Phys.J.Plus 137, 745 (2022) M.A.Khan, S.H.Mondal, M.Alam, M.Hasan S-factors and thermonuclear reaction rate for p+13N, p+14N and p+19F fusion reactions at energies much below the Coulomb barrier NUCLEAR REACTIONS 13,14N, 19F(p, X), E<800 keV; analyzed available data; calculated S-factors, Maxwellian-averaged reaction rates of three proton-induced nuclear fusion reactions.
doi: 10.1140/epjp/s13360-022-02991-2
2021KH05 Few-Body Systems 62, 54 (2021) Md.A.Khan, M.Hasan, S.H.Mondal, M.Alam Application of Supersymmetric Quantum Mechanics to Calculate Resonance Energy and Wave Function of 19C Halo Nucleus NUCLEAR STRUCTURE 18,19C; calculated wave functions, potentials; deduced depth, range, height and width parameters, resonant states, trapping probability, resonance parameters. Comparison with available data.
doi: 10.1007/s00601-021-01640-1
2021KH08 Nucl.Phys. A1015, 122316 (2021) M.A.Khan, M.Hasan, S.H.Mondal, M.Alam Hyperspherical three-body model calculation for the bound and resonant states of the neutron dripline nuclei 42, 44Mg using isospectral potential NUCLEAR STRUCTURE 42,44Mg; calculated correlation density plots for the ground state, wavefunctions, trapping probabilities, two-neutron separation energies.
doi: 10.1016/j.nuclphysa.2021.122316
2019CH58 J.Radioanal.Nucl.Chem. 322, 809 (2019) S.Chattopadhyay, S.S.Das, Madhusmita, Md.N.Alam, S.Banerjee Purification of 99Mo and 99mTc from radioactive traces of Nb, Zr, and Y impurities: method applicable in the purification of the spent 100/99Mo-99mTc generator NUCLEAR REACTIONS 89Y, 93Nb, Zr(p, X), E=12, 18 MeV; 89Y, 93Nb, Zr(α, X), E=32 MeV; measured reaction products. 88Zr, 88Y, 92Nb; deduced end of bombardment production yields.
doi: 10.1007/s10967-019-06692-6
2017DA30 J.Radioanal.Nucl.Chem. 311, 643 (2017) M.K.Das, S.S.Das, Madhusmita, M.N.Alam, S.Chattopadhyay, L.Barua, S.Datta Separation of Mo from Nb, Zr and Y: applicability in the purification of the recovered enriched 100Mo used in the direct production of 99mTc in cyclotrons
doi: 10.1007/s10967-016-5000-5
2013DA09 Appl.Radiat.Isot. 79, 42 (2013) S.S.Das, S.Chattopadhyay, Md.N.Alam, Madhusmita, L.Barua, M.K.Das Preparation and evaluation of SnO2-based 68Ge/68Ga generator made from 68Ge produced through natZn(α, xn) reaction NUCLEAR REACTIONS Zn(α, xn)68Ge, E=40 MeV; measured reaction products, X-rays; deduced yields. Comparison with available data.
doi: 10.1016/j.apradiso.2013.04.019
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