Prof. Dr. Jameel-Un Nabi
Dean
PhD, University of Heidelberg, Germany, 1999.
(PhD Thesis: Microscopic Calculations of Weak Interaction Rates in Stellar Environment)
M.Sc. (Physics), University of Karachi, Pakistan, 1992.
(M.Sc. Thesis: Thermal Deposition of Multilayer HTS Thin Films and Studies of Selenium Doping in YBCO)
B.Sc. (Hons.), University of Karachi, Pakistan, 1991.
(a) International:
i. Project title: Fellowship grants for promotion of graduate studies at GIKI.
Donor Agency: Abdus Salam International Centre for Theoretical Physics, Trieste, Italy.
Project Number: Prj-16
Duration: January 2005 - December 2007 (3 years)
Status: Completed
ii. Project title: The Department of Science Fellowships & Grant Programs (BIDEB) 2221.
Donor Agency: The Scientific & Technological Research Council of Turkey (TUBITAK), Turkey.
Project Number: 1059B211402772
Duration: June 2014 – July 2014 (2 months)
Status: Completed
(a) National:
i. Project title: Theoretical researches of the reactions important for nuclear astrophysics.
Donor Agency: Higher Education Commission, Pakistan.
Project Number: 20-1171
Duration: September 2008 – August 2010 (2 years)
Status: Completed
ii. Project title: Microscopic calculation of nuclear physics inputs for core-collapse simulation.
Donor Agency: Higher Education Commission, Pakistan.
Project Number: 20-1283
Duration: July 2009 – June 2012 (3 years)
Status: Completed
iii. Project title: Study of Gamow-Teller transitions using the pn-QRPA theory and Pyatov method for astrophysical applications.
Donor Agency: Higher Education Commission, Pakistan.
Project Number: 20-3099
Duration: July 2014 – June 2017 (3 years)
Status: In progress
(i) The Abdus Salam International Centre for Theoretical Physics, Trieste, Italy (01 Jun - 01 Aug, 2004).
(ii) The Abdus Salam International Centre for Theoretical Physics, Trieste, Italy (01 Sep - 30 Nov, 2006).
(iii) The Abdus Salam International Centre for Theoretical Physics, Trieste, Italy (17 May - 14 Aug, 2008).
(iv) The Abdus Salam International Centre for Theoretical Physics, Trieste, Italy (21 May - 19 Aug, 2010).
(v) Egyptian Center for Theoretical Physics, Cairo, Egypt (05 Jul – 03 Sep, 2011).
(vi) The Abdus Salam International Centre for Theoretical Physics, Trieste, Italy (25May - 31 Jul, 2012).
(vii) Department of Physics and Applied Mathematics, Celal Bayar University, Manisa, Turkey (24 Sep – 30 Sep, 2012).
(viii)Horia Hulubei Foundation, Bucharest, Romania (25 Nov – 02 Dec, 2012).
(ix) Egyptian Center for Theoretical Physics, Cairo, Egypt (01 Jun – 15 Aug, 2013).
(x) Department of Physics, Karabük University, Karabük, Turkey (17 Sep – 24 Sep, 2013).
(xi) Department of Physics, Celal Bayar University, Turkey (09 Jun – 03 Aug, 2014).
(xii) Horia Hulubei Foundation, Bucharest, Romania (19 Oct – 26 Oct, 2014).
(xiii)Department of Physics, Karabük University, Karabük, Turkey under the Mevlana Exchange Program (09 May – 25 May, 2015).
(xiv) Department of Physics, Karabük University, Karabük and Akdeniz University, Antalya, Turkey (05 Sep – 18 Sep, 2015).
(xv) Department of Physics, Bozok, K?r?kkale and Gaziantep University Turkey (05-12 October 2016) to establish student and faculty exchange programs.
MS
(i) Muhammad Sajjad, Thesis Title: Analysis of electron capture rates on fp-shell nuclei in the range (Z = 21 – 30) in stellar matter, 2006
(ii) Muhammad Fayyaz, Thesis Title: Microscopic analysis of Gamow-Teller strength distributions of Nickel Isotopes, 2008
(iii) Bilal Ahmad Farooq, Thesis Title: Calculation of Nuclear Level Densities and Nuclear Partition Functions for fp- and fpg-shell Nuclei, 2012
(iv) Muhammad Majid, Thesis Title: Optimum selection of particle-hole and particle-particle interaction parameters for calculation of Gamow-Teller strength, 2013.
(v) Zafar Iftikhar, Thesis Title: Investigation of β-decay rates on waiting-point nuclei, 2015
(vi) Ali Abas Khan, Thesis Title: Evolution of stellar matter composition, 2015
(vii) Munir Ahmed, Thesis Title: Allowed and Unique first-forbidden (U1F) β-decay Half-lives of Waiting-point Nuclei (A = 76 to 128), 2016
(viii)Muhammad Hilal, Thesis Title: Fabrication and Characterization of organic-inorganic hybrid tandem bulk heterojunction Solar Cells, 2016
(ix) Muhammad Riaz, Thesis Title: Calculation of Electron Capture Cross Section in Stellar Nucleosynthesis Using pn-QRPA Model, 2017
(x) Gul Daraz (research work in progress)
(xi) Farah Naz (research work in progress)
(xii) Muhammad Hashim (research work in progress)
PhD
(i) Muneeb-ur Rahman, Thesis Title: The GT strength functions and associated weak decay rates in stellar matter, 2007
(ii) Muhammad Sajjad, Thesis Title: Calculation of First Forbidden Stellar Decay Rates for Neutron-Rich Nuclei and Analysis of Allowed Weak Rates in the pn-QRPA model, 2011
(iii) Sadiye Cakmak (Celal Bayar University, Turkey), Thesis Title: Study of Gamow-Teller Transitions under Astrophysical Conditions, 2015
(iv) Muhammad Fayyaz (research work in progress)
(v) Muhammad Majid (research work in progress)
(vi) Mavra Ishfaq (research work in progress)
(vii) Muhammad Riaz (research work in progress)
· Fellow of the Institute of Physics, UK (2015- )
(1) MoU Protocol, Celal Bayar University, Turkey (signed on 22^{nd} November 2012)
(2) Mevlana Exchange Protocol, Karabük University Turkey (signed on 23^{rd} September, 2013)
(3) MoU Protocol, Karabük University, Turkey (signed on 19^{th} November, 2013)
(4) Mevlana Exchange Protocol, Celal Bayar University Turkey (signed on 14^{th} March, 2014)
(5) MoU Protocol, Sinop University, Turkey (signed on 8^{th} November 2014)
(6) Mevlana Exchange Protocol, Sinop University Turkey (signed on 8^{th} November, 2014)
(7) Mevlana Exchange Protocol, Sakarya University Turkey (signed on 8^{th} September, 2015)
(8) Erasmus+ Protocol, Izmir University of Economics Turkey (signed on 26^{th} February, 2016)
(9) Mevlana Exchange Protocol Iskenderun Technical University Turkey (signed on 7^{th} October, 2016)
(10) Mevlana Exchange Protocol, K?r?kkale University Turkey (signed on 14^{th} October, 2016)
(11) Mevlana Exchange Protocol, Bozok University Turkey (signed on 24^{th} November, 2016)
(12) Mevlana Exchange Protocol, Gaziantep University Turkey (signed on 5^{th} December, 2016)
(13) Mevlana Exchange Protocol, Aksaray University Turkey (signed on 18^{th} January, 2017)
· Europhysics Letters (IOP Journal)
· Central European Journal of Physics (Springer Verlag)
· Physical Review C (American Physical Society)
· Astrophysics & Space Science (Springer Verlag)
· European Physical Journal C (Springer Verlag)
· Advances in High Energy Physics (Hindawi Publishing Corporation)
(1) “Gamow-Teller strength and lepton captures rates on ?? - ?¹Ni in stellar matter”, J.-U. Nabi and M. Majid, accepted for publication in International Journal of Modern Physics E (2017). [15 pages]{I.F. (2015) 0.92}
(2) “Nuclear structure and weak rates of heavy waiting point nuclei under rp-process conditions”, J.-U. Nabi and M. B?yükata, Astrophysics and Space Science 362:9, 1-18 (2017). [18 pages]. {I.F. (2015) 2.263}.
(3) “New phase space calculations for beta-decay half-lives”, S. Stoica, M. Mirea, O. Nitescu, J.-U. Nabi and M. Ishfaq, Advances in High Energy Physics 2016, Article ID 8729893 doi:10.1155/2016/8729893 (2016). [8 pages] {I.F. (2015) 1.839}
(4) “Unique first-forbidden β-decay transitions in odd-odd and even-even heavy nuclei”, J.-U. Nabi, N. Cakmak, M. Majid and C. Selam, Nuclear Physics A, 947, 182-202 (2016). [21 pages]. {I.F. (2015) 2.202}
(5) “Gamow-Teller strength distributions and stellar weak-interaction rates for ^{76}Ge and ^{82}Se using the deformed pn-QRPA model”, J.-U. Nabi and M. Ishfaq, Astrophysics and Space Science 361:245, 1-10 (2016). [10 pages]. {I.F. (2015) 2.263}.
(6) “Temperature-dependent nuclear partition functions and abundances in stellar interior”, J.-U. Nabi, A. N. Tawfik, N. Ezzelarab and A. A. Khan, Physica Scripta 91, 055301 (2016) [37 pages]. {I.F. (2015) 1.126}.
(7) “Study of electron capture rates on chromium isotopes for core-collapse simulations”, M. Majid and J.-U. Nabi, Romanian Reports in Physics, 68, 149 (2016). [20 pages]{I. F. (2015) 1.517}.
(8) "Gamow-Teller strength distributions and neutrino energy loss rates due to chromium isotopes in stellar matter", J.-U. Nabi, R. Shehzadi and M. Fayaz, Astrophysics and Space Science 361:95, 1-17 (2016). [17 pages]. {I.F. (2015) 2.263}.
(9) “Mass fractions in stellar interior during presupernova evolution”, J.-U. Nabi, A. N. Tawfik, N. Ezzelarab and A. Abbas, Astrophysics and Space Science 361:71, 1-9 (2016) [9 pages]. {I.F. (2015) 2.263}.
(10) “β-Decay half-lives and nuclear structure of exotic proton-rich waiting point nuclei under rp-process conditions”, J.-U. Nabi and M. B?yükata, Nuclear Physics A 947, 182-202 (2016). [21 pages]. {I.F. (2015) 2.202}
(11) “First-forbidden β-decay rates, energy rate of β-delayed neutrons and probability of β-delayed neutron emissions for neutron-rich nickel isotopes”, J.-U. Nabi, N. Cakmak and Z. Iftikhar, European Physical Journal A 52, 1-14 (2016) [14 pages]. {I.F. (2015) 2.736}
(12) “Stellar Mass Fraction Calculation for Simulation of Stellar Evolution Processes”, J.-U. Nabi, Applied Science Reports 13, 140-142 (2016). [3 pages].
(13) “Effect of change in concentration of lead on the properties of Bi-2223 superconductor prepared through solid state reaction”, M. Ghafoor, J.-U. Nabi and J. Abbasi, Cumhuriyet Science Journal 36 (7), 1-11 (2015). [12 pages].
(14) “First-forbidden transitions and stellar β-decay rates of Zn and Ge isotopes”, J.-U. Nabi, N. Cakmak S. Stoica and Z. Iftikhar, Physica Scripta 90, 115301 (2015) [12 pages]. {I.F. 1.126}.
(15) “Spin-isospin transitions in chromium isotopes within the quasiparticle random phase approximation”, S. Cakmak, J.-U. Nabi, T. Babacan and I. Maras, Advances in Space Research 55, 440-453 (2015) [14 pages]. {I.F. 1.409}.
(16) “Charge-changing transitions and capture strengths of pf-Shell Nuclei with T_{z} = -2 at proton drip-line”, M.-U. Rahman and J.-U. Nabi, Astrophysics and Space Science 355, 2142 (2015) [10 pages]. {I.F. 2.263}
(17) “Study of Gamow-Teller transitions in isotopes of titanium within the quasiparticle random phase approximation”, S. Cakmak, J.-U. Nabi, T. Babacan and C. Selam, Astrophysics and Space Science 352, 645-663 (2014) [19 pages]. {I.F. 2.401}
(18) “The estimation of neutrino flux produced by pep reactions in the Sun”, B. F. Irgaziev, V. B. Belyaev and J.-U. Nabi, Physica Scripta 89, 084010 (2014). {I.F. 1.126}
(19) “Electron capture strength on odd-A nucleus ^{59}Co in explosive astrophysical environment”, M.-U. Rahman and J.-U. Nabi, Astrophysics and Space Science 351, 235-242 (2014).[8 pages]{I.F. 2.401}
(20) “Nuclear inputs of key iron isotopes for core-collapse modeling and simulation”; J.-U. Nabi and A.Tawfik, Physica Scripta 89, 084005 (2014).{I.F. 1.126}
(21) “Quantum Gravity effect on the Quark-Gluon Plasma”,I. Elmashad, A. F. Ali, L. I. Abou-Salem, J.-U. Nabi and A. Tawfik, SOP Transactions on Theoretical Physics 1, 1-6 (2014). [6 pages]
(22) “Unique first forbidden β-decay rates for neutron-rich nickel isotopes in stellar environment”, J.-U. Nabi and S. Stoica. Astrophysics and Space Science 349, 843-855 (2014). [13 pages]{I.F. 2.401}
(23) “The Nuclear Structure and Associated Electron Capture Rates on Odd-Z Nucleus ^{51}V in Stellar Matter”, M.-U. Rahman and J.-U. Nabi, Astrophysics and Space Science 348, 427-435 (2013). [9 pages]{I.F. 2.401}
(24) “Three-body calculation of the rate of reaction p + p + e → d + γ_{e} in the Sun”, B. F. Irgaziev, V. B. Belyaev and J.-U. Nabi, Physical Review C 87, 035804 (2013). [6 pages] {I.F. 3.85}
(25) “Comparison of Gamow-Teller strengths in the random phase approximation”, J.-U. Nabi and C. W. Johnson, Journal of Physics G 40, 065202 (2013). [16 pages] {I.F. 2.838}
(26) “Fine-Grid Calculations for Stellar Electron and Positron Capture Rates on Fe Isotopes”, J.-U. Nabi and A. N. Tawfik, Physics of Atomic Nuclei 76, 294-315 (2013). [22 pages]{I.F. 0.539}
(27) “Nickel isotopes in stellar matter”, J.-U. Nabi, European Physical Journal A 48, 84 (2012). [8 pages]{I.F. 2.043}
(28) “rp-process weak-interaction mediated rates of waiting-point nuclei’, J.-U. Nabi, Astrophysics and Space Science 339, 305-315(2012). [11 pages]{I.F. 2.064}
(29) “Neutrino and anti-neutrino energy loss rates due to iron isotopes suitable for core-collapse simulations”, J.-U. Nabi, Romanian Journal of Physics 57, 1211-1221 (2012). [11 pages]{I.F. 0.526}
(30) “Coulomb breakup of ^{6}Li into α + d in the field of ion ^{208}Pb”, B. F. Irgaziev, J.-U. Nabi and D. Khan, Physical Review C 84, 065809 (2011). [9 pages]{I.F.3.308}
(31) “Neutrino cooling rates due to ^{54,55,56}Fe for presupernova evolution of massive stars”, J.-U. Nabi, Advances in Space Research 48, 985-997 (2011). [13 pages]{I.F.1.178}
(32) “β-decay of key titanium isotopes in stellar environment”, J.-U. Nabi and I. Bakhadir, International Journal of Modern Physics E 20, 705-719 (2011). [15 pages]{I.F.0.597}
(33) “Gamow-Teller strength distribution in proton-rich nucleus ^{57}Zn and its implications in astrophysics”, J.-U. Nabi and M.-U. Rahman. Astrophysics and Space Science 332, 309-317 (2011). [9 pages]{I.F. 1.686}
(34) “Ground and excited states Gamow-Teller strength distributions of iron isotopes and associated capture rates for core-collapse simulations”, J.-U. Nabi. Astrophysics and Space Science 331, 537-554 (2011). [18 pages]{I.F.1.686}
(35) “Stellar β^{±} decay rates of iron isotopes and its implications in astrophysics”, J.-U. Nabi, Advances in Space Research 46, 1191-1207 (2010). [17 pages]{I.F. 1.076}
(36) “Expanded calculation of weak-interaction-mediated neutrino cooling rates due to ^{56}Ni in stellar matter”, J.-U. Nabi, Physica Scripta 81, 025901 (2010). [11 pages]{I.F. 0.982}
(37) “Neutrino and antineutrino energy loss rates in massive stars due to isotopes of titanium”, J.-U. Nabi, International Journal of Modern Physics E 19, 63-77 (2010). [15 pages]{I.F. 0.695}
The editor quotes “one of the best written submissions we've had: well-reasoned, well-referenced and substantial work.”
(38) “Weak-interaction-mediated rates on iron isotopes for presupernova evolution of massive stars”, J.-U. Nabi, European Physical Journal A 40, 223-230 (2009). [8 pages]{I.F. 1.968}
(39) “Stellar neutrino energy loss rates due to ^{24}Mg for O+Ne+Mg core simulations”, J.-U. Nabi, Physical Review C 78, 045801 (2008). [11 pages]{I.F. 3.124}
(40) “Detailed microscopic calculation of stellar electron and positron capture rates on ^{24}Mg for O+Ne+Mg core simulations”, J.-U. Nabi, Physica Scripta 78, 035201 (2008). [10 pages]{I.F. 0.970}
(41) “Neutrino energy loss rates and positron capture rates on ^{55}Co for presupernova and supernova physics”, J.-U. Nabi and M. Sajjad, Physical Review C 77, 055802 (2008). [13 pages]{I.F. 3.124}
(42) “Expanded calculations of proton-neutron quasiparticle random phase approximation (pn-QRPA) electron capture rates on ^{55}Co for presupernova and supernova physics”, J.-U. Nabi and M. Sajjad, Canadian Journal of Physics 86, 819-828 (2008). [10 pages]{I.F. 0.676}
(43) “Gamow-Teller (GT_{±}) strength distributions of ^{56}Ni for ground and excited states”, J.-U. Nabi, M.-U. Rahman and M. Sajjad, Acta Physica Polonica B 39, 651-669 (2008). [19 pages]{I.F. 0.767}
(44) “Comparative study of Gamow-Teller strength distributions in the odd-odd nucleus ^{50}V and its impact on electron capture rates in astrophysical environments”, J.-U. Nabi and M. Sajjad, Physical Review C 76, 055803 (2007). [8 pages]{I.F. 3.302}
(45) “Gamow-Teller transitions from ^{24}Mg and their impact on the electron capture rates in the O+Ne+Mg cores of stars”, J.-U. Nabi and M.-U. Rahman, Physical Review C 75, 035803 (2007). [5 pages]{I.F. 3.302}
(46) “Electron and positron capture rates on ^{55}Co in stellar matter”, J.-U. Nabi, M.-U. Rahman and M. Sajjad, Brazilian Journal of Physics 37, 1238-1245 (2007). [8 pages]{I.F. 0.478}
(47) “Role of ^{55}Co in supernova explosions”’, J.-U. Nabi, Jurnal Fizik Malaysia 28, 55-57 (2007). [3 pages]
(48) “Electron capture rates on titanium isotopes in stellar matter”, J.-U. Nabi, M. Sajjad and M.-U. Rahman, Acta Physica Polonica B 38, 3203-3223 (2007). [21 pages]{I.F. 0.664}
(49) “Gamow-Teller Strength Distributions and Electron Capture Rates for ^{55}Co and ^{56}Ni”, J.-U. Nabi and M.-U. Rahman, Physics Letters B612, 190-196 (2005). [7 pages]{I.F. 5.301}
(50) “High T_{c }Films on Silicon and Sapphire Substrates”, J.-U. Nabi, A. Tahir and R. A. Hashmi, Journal of Shanghai Normal University (Natural Sciences) 34, 29-35 (2005). [7 pages]
(51) “Electron capture on ^{55}Co at presupernova and supernova condition”, J.-U. Nabi and M.-U. Rahman, Journal of Shanghai Dianji University 8(5), 57-61 (2005). [5 pages]
(52) “Positron capture on ^{55}Co at presupernova and supernova condition”, J.-U. Nabi and M.-U. Rahman, Journal of Shanghai Dianji University 8(6), 60 - 65 (2005). [6 pages]
(53) “Microscopic Calculations of Stellar Weak Interaction Rates and Energy Losses for fp- and fpg-shell nuclei”, J.-U. Nabi and H. V. Klapdor-Kleingrothaus, Atomic Data and Nuclear Data Tables 88 (2), 237-476 (2004). [240 pages]{I.F. 3.393}
(54) “Weak Interaction Rates of sd-Shell Nuclei in Stellar Environment Calculated in the Proton-Neutron Quasiparticle Random-Phase Approximation”, J.-U. Nabi and H. V. Klapdor-Kleingrothaus, Atomic Data and Nuclear Data Tables 71, 149-345 (1999). [197 pages]{I.F. 2.500}
(55) ”Microscopic Calculations of Stellar Weak Rates for sd- and fp-Shell Nuclei for Astrophysical Applications”, J.-U. Nabi and H. V. Klapdor-Kleingrothaus, Acta Physica Polonica B 30, 825-833 (1999). [9 pages]{I.F. 0.583}
(56) ”Microscopic Calculations of Weak Interaction Rates in Stellar Environment for A=18 to 100”, J.-U. Nabi and H. V. Klapdor-Kleingrothaus, European Physical Journal A 5, 337-339 (1999). [3 pages]{I.F. 1.376}
20. “Three-body calculation of the rate of reaction p + p + e → d + γ_{e} in the Sun”, B. F. Irgaziev, V. B. Belyaev and J.-U. Nabi, Cornell University Archive Number arXiv:1212.3882(2012) [nucl-th]. [8 pages]
21. “Unique first-forbidden β-decay rates for neutron-rich Ni isotopes in stellar environment”, Jameel-Un Nabi and Sabin Stoica, Cornell University Archive Number arXiv:1211.6968 [nucl-th](2012) [nucl-th, astro-ph.HE, astro-ph.SR]. [22 pages]
22. “Comparison of Gamow-Teller strengths in the random phase approximation”, Jameel-Un Nabi and Calvin W. Johnson, Cornell University Archive Number arXiv:1208.6538 [nucl-th](2012) [nucl-th, astro-ph.SR]. [15 pages]
23. “Quantum Gravity e?ect on the Quark-Gluon Plasma”, I. Elmashad, A. F. Ali, L. AbouSalem, J.-U. Nabi and A. Tawfik, Egyptian Centre for Theoretical Physics, Internal Report No. ECTP-2012-06, Egypt, Cornell University Archive Number arXiv:1208.4028v1 (2012) [hep-ph]. [8 pages]
24. "Fine-Grid Calculations for Stellar Electron and Positron Capture Rates on Fe-Isotopes", J.-U. Nabi and A. N. Tawfik, Cornell University Archive Number arXiv:1108.4569(2011) [nucl-th]. [21 pages] (also published as Egyptian Centre for Theoretical Physics, Internal Report No. ECTP-2011-03, Egypt)
25. "β-decay of key titanium isotopes in stellar environment", J.-U. Nabi and I. Bakhadir, Cornell University Archive Number arXiv:1108.1026(2011) [nucl-th]. [14 pages]
26. "Neutrino and antineutrino energy loss rates in massive stars due to isotopes of titanium", J.-U. Nabi, Cornell University Archive Number arXiv:1108.1010(2011) [nucl-th]. [16 pages]
27. "Neutrino energy loss rates and positron capture rates on ^{55}Co for presupernova and supernova physics", J.-U. Nabi and M. Sajjad, Cornell University Archive Number arXiv:1108.0826(2011) [nucl-th]. [27 pages]
28. "Comparative study of Gamow-Teller strength distributions in the odd-odd nucleus ^{50}V and its impact on electron capture rates in astrophysical environments", J.-U. Nabi and M. Sajjad, Cornell University Archive Number arXiv:1108.0819(2011) [nucl-th]. [16 pages]
29. "Gamow-Teller transitions from ^{24}Mg and its impact on the electron capture rates in the O + Ne + Mg cores of stars", J.-U. Nabi and M.-U. Rahman, Cornell University Archive Number arXiv:1108.0813(2011) [nucl-th]. [13 pages]
30. "Electron capture rates on titanium isotopes in stellar matter", J.-U. Nabi, M. Sajjad and M.-U. Rahman, Cornell University Archive Number arXiv:1108.0532(2011) [nucl-th]. [24 pages]
31. "Gamow-Teller strength distributions and electron capture rates for ^{55}Co and ^{56}Ni", J.-U. Nabi and M.-U. Rahman, Cornell University Archive Number arXiv:1108.0525(2011) [nucl-th]. [10 pages]
32. "Stellar neutrino energy loss rates due to ^{24}Mg suitable for O+Ne+Mg core simulations", J.-U. Nabi, Cornell University Archive Number arXiv:1108.0511(2011) [nucl-th]. [20 pages]
33. "Weak-interaction mediated rates on iron isotopes for presupernova evolution of massive stars", J.-U. Nabi, Cornell University Archive Number arXiv:1108.0507(2011) [nucl-th]. [11 pages]
34. “Coulomb breakup of ^{6}Li into α + d in the field of ^{208}Pb”, B. F. Irgaziev, J.-U. Nabi and D. Khan, Cornell University Archive Number arXiv:1105.4942 (2011) [nucl-th] [10 pages]
35. “Detailed microscopic calculations of stellar electron and positron capture rates on ^{24}Mg for O+Ne+Mg core simulations”, J.-U. Nabi, The Abdus Salam International Centre for Theoretical Physics Preprint No. IC/2008/047 (2008). [18 pages]
39. ”Statistical Models of Nuclear Level Densities”, C. W. Johnson, J.-U. Nabi and E. Ormand, Cornell University Archive Number arXiv:nucl-th/0105041(2001). [13 pages]
40. “Reliable Calculations of Level Densities Using Statistical Spectroscopy”, J.-U. Nabi, C. W. Johnson and E. Ormand, Cornell University Archive Number arXiv:nucl-th/0111067(2001). [21 pages]
41. “Statistical Spectroscopic Calculation of Expectation Values and Spin-Cutoff Factors”, C. W. Johnson, J.-U. Nabi and W. E. Ormand, Cornell University Archive Number arXiv:nucl-th/0111068 (2001). [9 pages]
42. “Stellar Weak Interaction Rates and Energy Losses for fp-Shell Nuclei in the Proton-Neutron Quasiparticle Random Phase Approximation.”, J.-U. Nabi and H. V. Klapdor-Kleingrothaus, Cornell University Archive Number arXiv:nucl-th/9907112(1999). [119 pages]
43. ”Stellar Weak Interaction Rates and Energy Losses for fp-Shell Nuclei Calculated in the Proton-Neutron Quasiparticle Random Phase Approximation. A=61 to 80”, J.-U. Nabi and H. V. Klapdor-Kleingrothaus, Cornell University Archive Number arXiv:nucl-th/9907115(1999). [125 pages]
44. "Weak Interaction Rates Of sd-Shell Nuclei In Stellar Environment Calculated in the Proton-Neutron Quasiparticle Random Phase Approximation", J.-U. Nabi and H. V. Klapdor-Kleingrothaus, Cornell University Archive Number arXiv:nucl-th/9907106(1999). [64 pages]
45. "Microscopic Calculations of Weak Interaction Rates of Nuclei in Stellar Environment for A = 18 to 100", J.-U. Nabi and H. V. Klapdor-Kleingrothaus, Cornell University Archive Number arXiv:nucl-th/9901090 (1999). [9 pages]
1. “Cross Sections of Electron Capture on ^{62}Ni for Supernova Simulation”, J.-U. Nabi and M. Riaz, Proceedings of the 14^{th }Regional Conference on Mathematical Physics, 09 – 14 Nov, 2015, Quaid-i-Azam University, Islamabad, Pakistan, editor: K. Saifullah and M. Jamil Aslam, World Scientific Publishing, Singapore (2016) [10 pages].
2. “First-forbidden β-decay Rates on Zn and Ge Isotopes for Speeding up r-process Calculations”, J.-U. Nabi, N. Cakmak, S. Stoica and Z. Iftikhar, Proceedings of the International Conference on Relativistic Astrophysics, 2015, Lahore, Pakistan, Feb. 10 – 14, 2015, editor: M. Sharif, Dept. of Press & Publications, University of the Punjab, Lahore, Pakistan, page 140-159 (2015) [20 pages].
3. ” Why the rate of p+p®d+e^{+}+n_{e} reaction in the Sun does not depend on the form of NN potential", B. F. Irgaziev, V. B. Belyaev and J.-U. Nabi, Proceedings of the International Conference on Physics and Contemporary Needs, Lahore, Pakistan, November 19 – 21, 2014, Government College University [5 pages].
4. “Nucleosynthesis and the rp-process”, J.-U. Nabi, Proceedings of the Carpathian Summer School of Physics, 2012, Sinaia, Romania, June 24 – July 07, 2012, editors: L. Trache and P. G. Isar, American Institute Of Physics Conference Proceedings No. 1498, page 160-168 (2012) [9 pages].
5. “Neutrino energy loss rates due to 54,55,56 Fe in stellar environment”, J.-U. Nabi, Proceedings of the Seventh Tours Symposium (TOURS 2009), Kobe, Japan, November 16-20, 2009, editors: H. Susa, H. Utsunomiya, M. Arnould, S. Gales, T. Motobayashi and C. Scheidenberger, American Institute Of Physics Conference Proceedings No. 1238, page 214-217 (2010). [4 pages]
6. “Reduced Beta Decay Rates Of Iron Isotopes For Supernova Physics”, J.-U. Nabi, Proceedings of the Third International Meeting on Frontiers of Physics (IMFP-09), Kuala Lumpur, Malaysia, January 12-16, 2009, American Institute Of Physics Conference Proceedings No. 1150, page 236-240, 2009.
7. “Gamow-Teller Strength Distributions for pf-shell Nuclei and its Implications in Astrophysics”, M.-U Rahman and J.-U. Nabi, The Eighth Pacific Rim Conference on Stellar Astrophysics: A Tribute to Kam-Ching Leung ASP Conference Series, Vol. 404, Proceedings of the conference held 5-9 May, 2008, at Merlin Beach Hotel, Phuket, Thailand. Edited by B. Soonthornthum, S. Komonjinda, K.S. Cheng, and K.C. Leung San Francisco: Astronomical Society of the Pacific, 2009., p.96-102.
8. “Can^{55}Co give us the desired prompt explosion of massive stars”, J.-U. Nabi, Proceedings of the 12^{th} Regional Conference on Mathematical Physics, 2006, Islamabad, editors M. J. Aslam, F. Hussain, A. Qadir, Riazuddin and H. Saleem, World Scientific, ISBN-10 981-270-591-0, page 362-368, 2007. [7 pages]
9. “SUPARB Model for Calculation of Nuclear Level Densities”, Jameel-Un Nabi, Proceedings of the First International Conference on Modern Trends in Physics Research (MTPR-04), Cairo-Aswan, Egypt, April 4-9, 2004, editor Lotfia El Nadi, American Institute Of Physics Conference Proceedings No. 748, page 359-368 (2005).[10 pages]
10. ”Calculated Weak Rates of sd-Shell Nuclei in Stellar Matter and the Collapse of 8-10 Solar Mass Stars”, J.-U. Nabi and H. V. Klapdor-Kleingrothaus, Proceedings of the Second International Conference on Dark Matter in Astro and Particle Physics, Heidelberg, Germany 1998, H. V. Klapdor-Kleingrothaus and L. Baudis, editors (IOP Publishing, Bristol and Philadelphia) page 692 - 706(1999). [15 pages]
11. “Future of Double Beta Decay and Dark Matter Searches—GENIUS”, J.-U. Nabi et al., Proceedings of the Second International Workshop on Particle Physics and the Early Universe, California, USA, 1998, D. Cline, editor (AIP Press, New York), Volume 478, page 383 - 387 (1999). [5 pages]
12. ”Weak Interaction Rates at High Temperatures and Densities”, J.-U. Nabi and H. V. Klapdor-Kleingrothaus, Proceedings of the Second International Workshop on Particle Physics and the Early Universe, California, USA, 1998, D. Cline, editor (AIP Press, New York) Volume 478, page 230 - 233 (1999). [4 pages]
13. ”Supernovae and Weak Interaction”, J.-U. Nabi and H. V. Klapdor-Kleingrothaus, Proceedings of the Second International Conference on Physics Beyond the Standard Model, Tegernsee, Germany, 1999, H. V. Klapdor-Kleingrothaus and I. Krivosheina, editors (IOP Publishing, Bristol and Philadelphia) page 1071 - 1085 (1999). [15 pages]
14. “Weak Interaction Rates at High Temperatures and Densities and Their Astrophysical Significance”, J.-U. Nabi and H. V. Klapdor-Kleingrothaus, Max-Planck-Institut f?r Kernphysik, Heidelberg, Germany, Tätigkeitsbericht 1997/98, page 149-153. [5 pages]
1. “Focus of Higher Education in South Asia”, (invited article for The Emerging Nations Science Foundation, Trieste, Italy Newsletter, March & June 2010, Number 1 &2, page 2-5)
2. “ENSF supported research becomes a success story world-wide”, (invited news article for The Emerging Nations Science Foundation, Trieste, Italy Newsletter, March & June 2010, Number 1 &2, page 6)
3. “Smaller beta decay rates of iron isotopes for supernova physics”, (invited article for Science Aurora Magazine, 2010, page 38-39, published by Science Society, GIKI, Pakistan)
4. “Simulation data for pre-supernova evolution of massive stars”, (invited article for Science Aurora Magazine, 2012, published by Science Society, GIKI, Pakistan)
5. "Scientific Misconduct; A Brief Introduction to its Various Aspects", co-authored by Sheharyar Pervaz (invited article for Science Vision, 20 (1), 1-6 (2014) ISSN 1027-961X )