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NSR database version of April 27, 2024.

Search: Author = M.A.Uddin

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2022BA24      Europhys.Lett. 138, 44002 (2022)

A.K.Basak, A.C.Merchant, M.Freer, M.S.Islam, R.A.Ramon, M.Mizanur Rahman, A.S.B.Tariq, M.A.Uddin, A.Soylu

¹⁶O + ¹⁶O cluster states and their fusion to ³²S: A non-monotonic potential description

NUCLEAR REACTIONS ¹⁶O(¹⁶O, X)³²S, E=25-1120 MeV; analyzed available data; calculated σ, rotational constants, potential families, quasi-molecular states, bands, optical and nuclear models potentials.

doi: 10.1209/0295-5075/ac6c48
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2021HA30      Eur.Phys.J. D 75, 204 (2021)

R.Hassan, M.N.A.Abdullah, M.Shorifuddoza, M.H.Khandker, M.Atiqur R.Patoary, M.M.Haque, Pretam K.Das, M.Maaza, M.M.Billah, A.K.F.Haque, M.A.Uddin

Scattering of e^± silver atom over the energy range 1 eV-1 MeV

NUCLEAR REACTIONS Ag(e⁺, e⁺), (e^-, e^-), E=0.000001-1 MeV; calculated σ(θ) using the Dirac relativistic wave equation in the framework of the optical potential model (OPM). Comparison with available data.

doi: 10.1140/epjd/s10053-021-00222-4
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2021IS08      J.Phys.(London) G48, 075109 (2021)

M.S.Islam, R.A.Ramon, M.Mizanur Rahman, R.Majumder, M.A.Sayed, A.Nilima, M.M.B.Azad, A.S.B.Tariq, M.A.Uddin, A.K.Basak

Nature of potential families from elastic ¹⁶O +¹⁶O rainbow scattering

NUCLEAR REACTIONS ¹⁶O(¹⁶O, ¹⁶O), E=75-1120 MeV; analyzed available data; deduced optical potential parameters, σ.

doi: 10.1088/1361-6471/abd88e
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2021IS12      J.Phys.(London) G48, 125108 (2021)

M.S.Islam, R.A.Ramon, M.M.Rahman, M.S.Islam, M.M.B.Azad, A.S.B.Tariq, M.A.Uddin, S.Ali, A.K.Basak

Primary rainbow and Airy minima in ¹²C + ¹²C elastic scattering with families of non-monotonic potentials

NUCLEAR REACTIONS ¹²C(¹²C, ¹²C), E=25-360 MeV; analyzed available data; deduced σ, optical model parameters within the framework of the optical model (OM) using non-monotonic (NM) nucleus-nucleus potential.

doi: 10.1088/1361-6471/ac2fb0
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2015HO06      Phys.Rev. C 91, 064613 (2015)

S.Hossain, A.S.B.Tariq, A.Nilima, M.S.Islam, R.Majumder, M.A.Sayed, M.M.Billah, M.M.B.Azad, M.A.Uddin, I.Reichstein, F.B.Malik, A.K.Basak

Dependence of the ¹⁶O+¹⁶O nuclear potential on nuclear incompressibility

NUCLEAR REACTIONS ¹⁶O(¹⁶O, ¹⁶O), E=31.0, 41.0, 49.0, 59.0, 75.0, 80.6, 87.2, 92.4, 94.8, 98.6, 103.1, 115.9, 124.0, 145.0, 250.0, 350.0 MeV; analyzed σ(E, θ) data in the optical model using Nonmonotonic (NM) nucleus-nucleus potentials from energy-density functional (EDF) theory, and for nuclear incompressibility in K=188-266 MeV range.

doi: 10.1103/PhysRevC.91.064613
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2013HO16      J.Phys.(London) G40, 105109 (2013)

S.Hossain, M.Billah, M.M.B.Azad, F.Parvin, M.N.A.Abdullah, K.M.Hasan, M.A.Uddin, A.S.B.Tariq, A.K.Basak, I.Reichstein, F.B.Malik

Non-monotonic potential description of alpha-Zr refractive elastic scattering

NUCLEAR REACTIONS ⁹⁰Zr(α, α), E=15-141.7 MeV; analyzed available data; deduced scattering parameters, σ. Optical model framework using non-monotonic potentials.

doi: 10.1088/0954-3899/40/10/105109
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2013UD01      Eur.Phys.J. D 67, 214 (2013)

M.A.Uddin, A.K.F.Haque, T.I.Talukder, A.K.Basak, B.C.Saha, F.B.Malik

Semi-empirical model for stopping cross sections of p, α and Li ions

NUCLEAR REACTIONS Mo, Au(α, X), (p, X), (Li, X), E<100 MeV; calculated stopping σ for Z=2-100; Comparison with available data.

doi: 10.1140/epjd/e2013-40164-8
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2011BA23      Europhys.Lett. 94, 62002 (2011)

A.K.Basak, M.M.Billah, M.J.Kobra, M.K.Sarkar, M.Mizanur Rahman, Pretam K.Das, S.Hossain, M.N.A.Abdullah, A.S.B.Tariq, M.A.Uddin, S.Bhattacharjee, I.Reichstein, F.B.Malik

Non-monotonic potentials and vector analyzing powers of ^{6, 7}Li scattering by ¹²C, ²⁶Mg, ⁵⁸Ni, and ¹²⁰Sn

NUCLEAR REACTIONS ¹²C, ²⁶Mg, ⁵⁸Ni(⁶Li, ⁶Li), (⁷Li, ⁷Li), E=20 MeV; ¹²⁰Sn(⁶Li, ⁶Li), (⁷Li, ⁷Li), E=44 MeV; calculated σ, vector analyzing power. Optical model potential, comparison with experimental data.

doi: 10.1209/0295-5075/94/62002
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2009HO11      Eur.Phys.J. A 41, 215 (2009)

S.Hossain, M.N.A.Abdullah, A.K.Basak, S.K.Das, M.A.Uddin, A.S.B.Tariq, I.Reichstein, K.M.Rusek, F.B.Malik

Potential description of ⁶Li elastic scattering by ²⁸Si

NUCLEAR REACTIONS ²⁸Si(⁶Li, ⁶Li), E=7.5, 9.0, 11.0, 13.0, 22.8, 25.0, 27.0, 30.0, 34.0, 46.0, 75.6, 99.0, 135.0, 154.0, 210.0, 318.0 MeV; calculated σ(θ) using the energy-density functional formalism with different potentials; deduced parameters for the various potentials.

doi: 10.1140/epja/i2009-10813-7
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2008HO15      Europhys.Lett. 84, 52001 (2008)

S.Hossain, M.N.A.Abdullah, A.S.B.Tariq, M.A.Uddin, A.K.Basak, K.M.Rusek, I.Reichstein, F.B.Malik

Microscopic ⁶Li-²⁸Si potential from the energy-density functional theory

NUCLEAR REACTIONS ²⁸Si(⁷Li, ⁷Li), E=7.5-99.0 MeV; analyzed σ(θ).

doi: 10.1209/0295-5075/84/52001
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2008TA01      Eur.Phys.J. D 46, 281 (2008)

M.R.Talukder, S.Bose, M.A.R.Patoary, A.K.F.Haque, M.A.Uddin, A.K.Basak, M.Kando

Empirical model for electron impact ionization cross sections of neutral atoms

ATOMIC PHYSICS H, He, Li, C, N, O, F, Ne, Na, Mg, Al, Si, P, S, Cl, Ar, Fe, Cu, Ga, Ge, As, Se, Br, Kr, Ag, In, Sn, Sb, Te, I, Xe, Ba, Hg, Pb, Bi, U(e, X), E < 10 MeV; calculated electron impact total ionization cross sections for both open and closed shell neutral atoms using an empirical expression.

doi: 10.1140/epjd/e2007-00318-y
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2006AB32      Nucl.Phys. A775, 1 (2006)

M.N.A.Abdullah, M.S.Sabra, M.M.Rashid, Z.Shehadeh, M.M.Billah, S.K.Das, M.A.Uddin, A.K.Basak, I.Reichstein, H.M.Sen Gupta, F.B.Malik

Alpha-alpha potential up to 47.3 MeV bombarding energy

NUCLEAR REACTIONS ⁴He(α, α), E=2.0-47.3 MeV; analysed σ, σ(θ); deduced parameters. ⁸Be deduced decay width. Various non-monotonic and Woods-Saxon α-nucleus potentials compared, phase shift effects discussed.

doi: 10.1016/j.nuclphysa.2006.06.007
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2006HO04      Phys.Lett. B 636, 248 (2006)

S.Hossain, M.N.A.Abdullah, K.M.Hasan, M.Asaduzzaman, M.A.R.Akanda, S.K.Das, A.S.B.Tariq, M.A.Uddin, A.K.Basak, S.Ali, F.B.Malik

Shallow folding potential for ¹⁶O + ¹²C elastic scattering

NUCLEAR REACTIONS ¹⁶O(α, α), E=23.2-172.5 MeV; ¹²C(¹⁶O, ¹⁶O), E=132.0-260.0 MeV; calculated σ(θ). ¹²C deduced radius, α-cluster structure. Folding model, comparisons with data.

doi: 10.1016/j.physletb.2006.03.071
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2005AB24      Nucl.Phys. A760, 40 (2005)

M.N.A.Abdullah, A.B.Idris, A.S.B.Tariq, M.S.Islam, S.K.Das, M.A.Uddin, A.S.Mondal, A.K.Basak, I.Reichstein, H.M.Sen Gupta, F.B.Malik

Potentials for the α- ^{40, 44, 48}Ca elastic scattering

NUCLEAR REACTIONS ^40,44,48Ca(α, α), E=10-180 MeV; analyzed σ(θ); deduced parameters. Non-monotonic and Squared Woods-Saxon α-nucleus potentials compared, dispersion effects discussed.

doi: 10.1016/j.nuclphysa.2005.05.149
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2005BI23      Nucl.Phys. A762, 50 (2005)

M.M.Billah, M.N.A.Abdullah, S.K.Das, M.A.Uddin, A.K.Basak, I.Reichstein, H.M.Sen Gupta, F.B.Malik

Alpha-Ni optical model potentials

NUCLEAR REACTIONS ^58,60,62,64Ni(α, α), E ≈ 15-166 MeV; calculated σ(θ). Four optical potentials compared with data.

doi: 10.1016/j.nuclphysa.2005.07.020
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2005HO12      J.Phys.(London) G31, 309 (2005)

S.Hossain, M.N.A.Abdullah, S.K.Das, M.A.Uddin, A.K.Basak, H.M.Sen Gupta, I.J.Thompson, F.B.Malik

Band mixing in ²⁹Si and ²⁹P

NUCLEAR REACTIONS ²⁸Si(α, t), (α, ³He), E=45 MeV; analyzed σ(E, θ). ²⁹P, ²⁹Si deduced configurations, band-mixing effects. Coupled channels approach, finite-range transfer theory, Nilsson model.

doi: 10.1088/0954-3899/31/5/003
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2003AB11      J.Phys.(London) G29, 1259 (2003)

M.N.A.Abdullah, S.K.Das, A.S.B.Tariq, M.S.Mahbub, A.S.Mondal, M.A.Uddin, A.K.Basak, H.M.Sen Gupta, F.B.Malik

Molecular versus squared Woods-Saxon α-nucleus potentials in the ²⁷Al(α, t)²⁸Si reaction

NUCLEAR REACTIONS ²⁷Al(α, t), (α, α), E=64.5 MeV; calculated σ(θ), σ(E, θ). Comparison of Woods-Saxon and molecular potentials, comparison with data.

doi: 10.1088/0954-3899/29/6/323
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2003AB22      Phys.Lett. B 571, 45 (2003)

M.N.A.Abdullah, M.S.I.Sarker, S.Hossain, S.K.Das, A.S.B.Tariq, M.A.Uddin, A.S.Mondal, A.K.Basak, S.Ali, H.M.Sen Gupta, F.B.Malik

Cluster structure of ^{40, 44, 48}Ca

NUCLEAR REACTIONS ^40,44,48Ca(α, α), E=22-166 MeV; analyzed σ(θ); deduced parameters. ^40,44,48Ca deduced α-cluster structure. Folded potential.

doi: 10.1016/j.physletb.2003.08.014
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2003AB24      Eur.Phys.J. A 18, 65 (2003)

M.N.A.Abdullah, S.Hossain, M.S.I.Sarker, S.K.Das, A.S.B.Tariq, M.A.Uddin, A.K.Basak, S.Ali, H.M.Sen Gupta, F.B.Malik

Cluster structure of ¹⁶O

NUCLEAR REACTIONS ¹⁶O(α, α), E=25.4-146.0 MeV; calculated σ(θ). ¹⁶O deduced radius. Folding model, α-cluster configurations, comparisons with data.

doi: 10.1140/epja/i2003-10068-7
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2002AB22      Eur.Phys.J. A 15, 477 (2002)

M.N.A.Abdullah, M.S.Mahbub, S.K.Das, A.S.B.Tariq, M.A.Uddin, A.K.Basak, H.M.Sen Gupta, F.B.Malik

Investigation of α-nucleus interaction in the ²⁷Al(α, α)²⁷Al scattering and ²⁷Al(α, d)²⁹Si reaction

NUCLEAR REACTIONS ²⁷Al(α, α), E=22.3-64.5 MeV; analyzed σ(θ); deduced potential parameters. ²⁷Al(α, d), E=26.5, 27.2 MeV; calculated spectroscopic factors, σ(θ). Molecular and Michel potentials, DWBA.

doi: 10.1140/epja/i2002-10066-0
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2000DA28      Phys.Rev. C62, 054605 (2000)

S.K.Das, A.S.B.Tariq, M.A.Uddin, A.S.Mondal, A.K.Basak, K.M.Rashid, H.M.Sen Gupta, F.B.Malik

Effect of α-Nucleus Potential on the ²⁸Si(α, d)³⁰P Reaction

NUCLEAR REACTIONS ²⁸Si(α, d), E=26 MeV; analyzed σ(E, θ). ³⁰P level deduced J, π. DWBA calculations, several potentials compared.

doi: 10.1103/PhysRevC.62.054605
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1999TA13      Phys.Rev. C59, 2558 (1999)

A.S.B.Tariq, A.F.M.M.Rahman, S.K.Das, A.S.Mondal, M.A.Uddin, A.K.Basak, H.M.Sen Gupta, F.B.Malik

Potential Description of Anomalous Large Angle Scattering of α Particles

NUCLEAR REACTIONS ²⁸Si(α, α), E=14.47-45 MeV; ³⁰Si(α, α), E=26.6 MeV; ²⁴Mg(α, α), E=22-120 MeV; analyzed σ(θ); deduced potential parameters. Michel, molecular potentials, anomalous large angle scattering.

doi: 10.1103/PhysRevC.59.2558
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1997BA60      Phys.Rev. C56, 1983 (1997)

A.K.Basak, M.A.Basher, A.S.Mondal, M.A.Uddin, S.Bhattacherjee, A.Husain, S.K.Das, M.Haque, H.M.Sen Gupta

⁶⁴Cu Levels from the ⁶²Ni(³He, p) Reaction at 18 MeV

NUCLEAR REACTIONS ⁶²Ni(³He, p), E=18 MeV; measured proton spectra, σ(Ep, θ); deduced optical model parameters. ⁶⁴Cu levels deduced J, π. Shell model analysis.

doi: 10.1103/PhysRevC.56.1983
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