Dr. Manoj Kumar Sharma

Professor

Specialization

Theoretical Nuclear Physics

Email

msharma@thapar.edu

Specialization

Theoretical Nuclear Physics

Email

msharma@thapar.edu

Contact no.: 9592780056

Area: Theoretical Nuclear Physics

Biography:

Present Designation: Professor , SPMS, TIET, Patiala

Academic Qualifications

BSc :1989-1992, DAV College, Kangra, (H.P.)

MSc : 1992-1994, Panjab University, Chandigarh

Ph.D: 1995-1999, Panjab University, Chandigarh

Teaching Experience

Under-graduate: 25 Years

Post Graduate : 20 Years

Research Guidance

Ph.D: Seventeen completed, two near submission, Five in progress

MSc: Thirty seven completed, one  in progress

Visits Abroad for Academic Collaboration & Conferences

  • University of Giessen (Germany) under research invitation under Volks Wagen Foundation Fellowship  in 1998

  • Niigata University, Japan in March 2010 supported by DST & INSA.

  • [INPC-13] Florence, Italy in June 2013 supported by DST & INSA.

  • Oud St Johns’ Hospital Bruges, Belgium (Nuclear Data ND2016) in Sept. 2016 supported by INSA & PDA.

  • Institute for Nuclear Science & Technique, ISPUN17, Halong City, Vietnam in Sept. 2017 Supported by DST & PDA

  • Joint institute of Nuclear Research (JINR) Dubna, Russia in June 2019 Supported by CSIR and PDA

Course Undertaken

Nuclear Physics, Electrodynamics, Mathematical Physics,

Engineering Physics, Modern Physics, Nanoscience &

Nanomaterials, Wave Optics, Laser and Fibre Optics, Basic

Electronics, Nuclear Power Engineering, Electrical and Magnetic

Materials, Theory of Relativity etc.

Research Projects Completed

  • One DST Young Scientist Scheme Project (2006)

  • Two UGC Major Reseach Projects (2009 and 2013)

  • Two CSIR Major Reseach Projects (2014 and 2020)

  • Two DST Major Reseach Projects (2015 and 2018)

Ongoing

  • DAE Research Project (2019- 2022) [Co-PI]

  • UGC-DAE-CSR Research Project (2019-2022) PI

Membership of Professional Institutions, Publications

(SCI Research

Associations, Societies

Indian Physics Association (IPA)

Indian Society for Technical Education (ISTE)

Indian Nuclear Society (INS)

Punjab Academy of Sciences (PAS)

Research Interests: Theoretical Nuclear Physics: Heavy ion collisions, Fusion-fission dynamics, Cluster radioactivity, Superheavy synthesis, Halo nuclei, incomplete fusion.

Research Publications [in International Journals 155]

  1. Effect of compact and elongated configurations on the spontaneous and induced fission of Fm isotopes. Amandeep Kaur ,* Nitin Sharma, and Manoj K. Sharma Phys. Rev C 103, 034618 (2021).
  2. Impact of noncoplanar degrees of freedom on quasifission contributions with the estimationof unobserved decay channels for the study of 196Ptusing the dynamical cluster-decay model. Sahila Chopra, Manoj K. Sharma,Peter Oto Hess , Hemdeep, and Neetu Maan. Phys. Rev C 103, 064615 (2021).
  3. Thermal effects in hot and dilute homogeneous asymmetric nuclear matter. Vishal Parmar, Manoj K Sharma, S K Patra, Phys. Rev C 103, 055817 (2021)
  4. Critical properties of symmetric nuclear matter in low-density regime using effective-relativistic mean field formalism. Vishal Parmar, Manoj K Sharma, S K Patra, J. Phys. G: Nucl. Part. Phys. 48 (2021) 025108 (22pp)
  5.  Decay dynamics of 9Be + 89Y reaction in view of complete and incomplete fusion mechanisms. Neha Grover, V Parmar, S K Patra and Manoj K Sharma. Nucl. Phys. A 1011 (2021) 122198
  6. Fission Dynamics of Z=120 superheavy nucleus using 64Ni+238U reaction. G kaur and Manoj K Sharma. AIP Conf. Proc. 2319, 080005-1–5 (2021).
  7. Analysis of various competing binary and ternary decay processes of the 253Es nucleus. Nitin Sharna, Amandeep Kaur2, Manoj K Sharma, Phys. Rev. C 102, 064603 (2020)
  8. sAnalysis of barrier characteristics and related fusion properties using 2pF, 3pF and 3pG density functions, Shivani Jain, raj Kumar and Manoj K. Sharma, Nuclear Physics A 997 (2020) 121699
  9. Optimum orientations for the octupole deformed nuclei in fusion configurations, Shivani Jain, R. Kumar and Manoj K. Sharma, R. Kumar, (PHYSICAL REVIEW C 101, 051601(R) (2020)
  10. Fusion Dynamics of Compound Nuclei with ACN =166–20 Investigated Using Different Projectiles on 154Sm Target, Ishita Sharma, Raj Kumar, Manoj K. Sharma, Brazilian Journal of Physics ,vol. 50, 64–70(2020)
  11. Relevance of Skyrme forces in the decay dynamics of 28Si* at stellar energies, Ishita Sharma, Raj Kumar, Manoj K. Sharma, Nucl. Phys. A,vol. 994(2020) 121666
  12. Fragmentation analysis of 105Ag nucleus governed via completeand incomplete fusion channels at Ec.m. = 89 MeV. I Sharma and Manoj K Sharma.Mod. Phys Lett. A  2050084 (2020)DOI:10.1142/S0217732320500844.
  13. Fission analysis of Z = 114 superheavy isotopes formed via heavy‑ion induced reactions. G Kaur, Manoj K. Sharma Journal of Radioanalytical and Nuclear Chemistry https://doi.org/10.1007/s10967-019-06620-8
  14. Analysis of n-evaporation from light mass nuclei formed via p-induced reactions. A. kaur and Manoj K Sharma. Mod. Phys Lett. A  2050082 (2020) DOI: 10.1142/S02177323205 00820
  15. Capture and fission analysis of various superheavy isotopes with ACN=258–280. G. Kaur and Manoj K Sharma Commun. Theor. Phys. 72 (2020) 025302 (10pp)
  16. Cluster radioactivity within the collective fragmentation approachusing different mass tables and related deformations N Kaur, R Kumar and Manoj K Sharma Eur. Phys. J. A (2020) 56:35
  17. Relative emergence of fission and quasi-fission in Z=116 superheavy nucle. G kaur and Manoj K Sharma Indian Journal of Pure & Applied Physics Vol. 58, May 2020, pp. 331-335
  18. Complete and incomplete fusion cross-sections for 7Li+119Sn reaction using different approaches, I Sharma, N Grover and Manoj K Sharma. Indian Journal of Pure & Applied Physics Vol. 58, April 2020, pp. 277-281
  19. Systematic decay analysis of 202Po compound nucleus using Dynamical Cluster-decay Model. P Kaushal and Manoj K Sharma. International Journal of Modern Physics E Vol. 28, No. 12 (2019)  Published March 2020. 1950105 DOI: 10.1142/S0218301319501052
  20. Relevance of Deformation Effects in Decay Modesof Radioactive Nucleus 242Cm. Kanishka Sharma and Manoj K Sharma, ISSN 1062-8738, Bulletin of the Russian Academy of Sciences: Physics, 2020, Vol. 84, No. 12, pp. 1557–1562.
  21. Evolution of symmetric decay in A = 60 compound nuclei . M Kaur. S Kaur, B B Singh, Manoj K Sharma AIP Conference Proceedings 2220, 130059 (2020)
  22. Fragmentation analysis of 88Mo_ compound nucleus in view of different decay Mechanisms, N Grover, B Thakur and Manoj K Sharma EPJ Web of Conferences 232, 03004 (2020)
  23. Role of higher order deformations in fission fragment mass distribution of Astatine isotopes within collective clusterization approach. A Kaur, Manoj K Sharma, J. Phys.: Conf. Ser. 1643 012091 (2020)
  24. Influence of nuclear surface diffuseness on systems involving spherical and deformed targets, Rajni, Manoj K. Sharma, IJMPE, vol.28,7 1950052 (2019)\
  25.  Fission mass distribution of various superheavy nuclei and related dynamical analysis,Gurjit kaur,Manoj K. Sharma,Nucl. Phys. A,vol. 990,79-93(2019)
  26. Fission analysis of Z = 114 superheavy isotopes formed via heavyion induced reactions, Gurjit kaur,Manoj K. Sharma,journal of radioanalytical and nuclear chemistry,vol.322,43-48(2019)
  27. Analysis of competing ground state channels observed in decay of Cm isotopes, Kanishka Sharma, Manoj K. Sharma, IJMPE 28, 1950048 (2019)
  28. Fragmentation analysis and α-decay half-lives of trans-Sn nuclei, Kanishka Sharma, Manoj K. Sharma, NPA 986, 1-17 (2019)
  29. Collective clusterization approach to investigate the relevance of deformation effects in Sn radioactivity.  Kanishka Sharma, Gudveen Sawhney, Manoj K. Sharma, Raj K.Gupta, Eur. Phys. J. A  55,  30(2019)
  30. Fission Dynamics and Related Aspects of 181Re Nucleus Formed in 12C Induced Reaction, Kanishka Sharma, Manoj K. Sharma,  Braz. J. Phys.  49, 887–896 (2019)
  31. Emission of light charge particles and fission fragments from Hf* and Pt* nuclei,Ishita Sharma,

Manoj K. Sharma, Nucl. Phys. A,vol.986,116-132(2019)

  1. Fine structure effect among heavy-ion induced fission fragments at near and above barrier energies, Amandeep Kaur and Manoj K. Sharma, Eur. Phys. J. A ,Vol. 55: 89(2019)
  2. Fission fragmentation analysis of 211At* nucleus formed in 19F+192Os  reaction,Amandeep Kaur,Manoj K. Sharma, Indian Journal of Pure & Applied Physics, Vol. 57, pp. 576-579(2019)
  3. Across barrier fission analysis of At isotopes formed in 3,4,6,8He+209Bi reactions,Amandeep kaur,Gurjit Kaur,S.K. Patra, Manoj K. Sharma,Nucl. Phys. A vol. 990, 94-108(2019)
  4. Investigation of various decay mechanisms for 216Th following the 32S + 184W reaction in the range Ec.m. = 118–196 MeV, Amandeep Kaur, Manoj K. Sharma, Phy. Rev. C 99, 044611 (2019)
  5. Relevance of different Skyrme forces in  40,48Ca induced reactions, Ishita Sharma, Raj Kumar, and Manoj K. Sharma Vol. 983,276-292(2019)
  6. Decay of 203,204Pb nuclei at energies across the coulomb barrier using cluster emission approach. N Kaur, R Kumar and Manoj K Sharma, Braz. J. of Phys. 49, 119-132 (2019)
  7. Role of shell and pairing correction in the dynamics of compound nuclei with ACN=118-196 using collective clusterization approach, N. Kaur, R Kumar and Manoj K. Sharma Nucl. Phys. A 981 89-106 (2019)
  8. Study of α-induced reactions forming A =60 compound systems within dynamical cluster-decay model. Mandeep Kaur, Bir Bikram Singh, Manoj K. Sharma, Raj K. Gupta Nuclear Physics A 980 (2018) 67–80
  9. Fission Cross Sections and Fragment Mass Distribution of Actinide Nuclei Formed in n-Induced Reactions, A Kaur, G Sawhney & Manoj K Sharma Brazilian Journal of Physics https://doi.org/10.1007/s13538-018-0604-6
  10. Effect of different nuclear density approxima-tions on fusion dynamics within Skyrme Energy Density Formalism, S jain, R Kumar & Manoj K Sharma, Eur. Phys. J. A (2018) 54: 20
  11. Dynamics of Db isotopes formed in reactions induced by 238U, 248Cm, and 249Bk across the Coulomb barrier Gurjit Kaur, Kirandeep Sandhu, Amandeep Kaur, and Manoj K. Sharma,  Phys. Rev. C 97, 054602 (2018)
  12. Dynamics of 17F + 58Ni reaction via complete and incomplete fusion processes at above barrier energies Neha Grover, Kirandeep Sandhu, and Manoj K. Sharma Nucl. Phys. A 974 (2018) 56-71.
  13. Decay of Plutonium isotopes via spontaneous and heavy-ion induced fission paths Kanishka Sharma, Gudveen Sawhney, Manoj K.Sharma, Raj K.Gupta Nucl. Phys. A 972, 1–17 (2018).
  14. Effect of deformations on the compactness of odd-Z superheavy nuclei formed in cold and hot fusion reactions. G. Kaur. K. Sandhu & Manoj K Sharma Nuclear Physics A 971 (2018) 95–112
  15. Spontaneous fission of the end product in alpha-decay chain of  recoiled super heavy nucleus: a theoretical study Amandeep Kaur, Gudveen Sawhney,  Manoj K. Sharma and Raj K. Gupta Int. J. of Mod. Phys E (IJMPE) vol. 27  no. 5, 1850043 (2018).
  16. Analysis of intermediate and light mass fragments from composite systems 26–29Al* formed in 16,18O +10,11B reactions Mandeep Kaur, Bir Bikram Singh, Manoj K. Sharma, Raj K. Gupta Nucl. Phys. A 969 (2018) 14–29.
  17. Fragmentation analysis of α-induced reactions using clusterization approach Amandeep Kaur, Manoj K.Sharma Nucl. Phys. A 969 (2018) 30-44.
  18. Decay of 203,204Pb* nuclei at energies across the Coulomb barrier using cluster emission approach. N. Kaur, R. Kumar. Manoj K Sharma, Braz. J. of Phys- Accepted (BJPH-D-18-00168)
  19. Decay analysis of Ge isotopes formed in reactions induced by tightly and loosely bound projectiles. Amandeep Kaur, K. Sandhu  and Manoj K Sharma  Comm. Theo. Phys. 70 (2018) 565-577.
  20. Role of shell and pairing correction in the dynamics of compound nuclei with ACN=118-196 using collective clusterization approach. N Kaur, R. Kumar & Manoj K Sharma. Nucl. Phys. A - Accepted (NPA-D-18-00427)
  21. Decay analysis of 216Th* nucleus using dynamical cluster-decay model. A. Kaur and Manoj K. Sharma. AIP Conf. Proc.2006, 030001 (2018); doi: 10.1063/1.5051257.
  22. Probing the effect of neutron excess on the dynamics of Hf compound system. Ishita Sharma, Raj Kumar, and Manoj K. Sharma, AIP Conf. Proc. 1953, 140100 (2018); doi: 10.1063/1.5033275
  23. Fragmentation and related aspects of 28Si+90Zr→118Xe* reaction over Ec.m. ≈ 65-92 MeV. N. Grover and Manoj K Sharma, AIP Conf. Proc. 2006, 030007 (2018); doi: 10.1063/1.5051263.
  24. Relative role of different radii in the dynamics of 8B+58Ni reaction. A. Kaur, Sandhu and Manoj K Sharma, AIP Conf. Proc. 1953, 140080 (2018); doi: 10.1063/1.5033255.
  25. Fusion dynamics of 30Si+238U reaction using variety of interaction potentials Ishita Sharma Manjeet S. Gautam, Manoj K. Sharma Int. J. of Mod. Phys. E,  26, 11 (2017)
  26. Influence of sticking vs non-sticking limits of moment of inertia and higher order deformations in the decay of 214,216Rn*compound systems Rajni Mittal, Deepika Jain, Manoj K. Sharma Nuclear Phys. A 968 (2017) 436–452.
  27. Impact of spin-orbit density dependent potential in heavy ion reactions forming Se nuclei Rajni, Deepika Jain, Ishita Sharma and Manoj K Sharma Eur. Phys. J. A (2017) 53: 208
  28. Spontaneous fission and competing ground state decay modes of actinide and transactinide nuclei, Kanishka Sharma, Gudveen Sawhney, and Manoj K. Sharma, Phys. Rev. C 96, 054307 (2017).
  29. Probing the role of Skyrme interactions on the fission dynamics of the 6Li + 238U reaction Ishita Sharma, Raj K Gupta, Manoj K Sharma Eur. Phys. J. A 53: 140 (2017).
  30. Study of Cold Fusion Reactions Using Collective Clusterization Approach Gurjit Kaur, Kirandeep Sandhu and Manoj K. Sharma Comm. in Theo. Phys. 68, 4 (2017).
  31. Analysis of spontaneous fission in super heavy mass region using the dynamical cluster-decay model Acta Physica Polonica B Gudveen Sawhney, Amandeep Kaur, Manoj K. Sharma 48, 3 (2017).
  32. Complete and incomplete fusion dynamics of 6,7Li + 159Tb reactions near the Coulomb barrier Manjeet Singh Gautam, Neha Grover and Manoj K. Sharma Eur. Phys. J. A 53: 12 (2017).
  33. Analysis of dynamical behavior of reactions associated with 118,120,122Xe* isotopes Neha Grover, Ishita Sharma, Gurvinder Kaur, Manoj K. Sharma Nuclear Physics A 959, 10–26 (2017).
  34. Competing analysis of α and 2p2n- emission from compound nuclei formed in neutron induced reactions Amandeep Kaur and Manoj K Sharma Nucl. Phys. A 954 , 274-288 (2017).
  35. Effect of deformation and orientation on spin orbit density dependent nuclear Potential Rajni, Raj Kumar and Manoj K Sharma, EPJ Web of Conferences, 163, 00038 (2017).
  36. Role of rotational energy component in the dynamics of 16O + 198Pt reaction, Manoj Kumar Sharma, Rajni and Deepika Jain, EPJ web of conf. (accepted)
  37. Dynamics of  16,18O induced reactions using Ni, Ge and Mo targets.  Rajni, Gurvinder Kaur, and Manoj K. Sharma. Int. J. of Mod. Phys E (IJMPE) vol. 25 no. 11 (2016) 1650091.
  38. Properties of fission fragments for Z=112-116 superheavy nuclei.G kaur, K Sandhu, Manoj K Sharma, Phys. Rev. C 94, 014615 (2016).
  39. Decay analysis of pre actinide and trans actinide nuclei formed using various projectiles on 197Au target ant ECN=60 MeV. N Grover, G Kaur, Manoj K Sharma. Phys. Rev. C 93, 014603 (2016).
  40. Importance of deformations in dynamical evolution of proton halo nuclei. G. Sawhney, R K Gupta and Manoj K Sharma, Acta Physica Polonica B, Vol. 47 No. 3 (2016).
  41. Search for halo structure in  37Mg using a Glauber model and
     microscopic relativistic mean-field densities, M K Sharma, R N Panda, Manoj K Sharma, S K Patra, Phys. Rev. C 93, 014322 (2016).
  42. Role of Barrier modification and inelastic surface excitations in sub barrier fusion of 32S+94Zr reaction. M.S. Gautam, Rajni, Manoj K. Sharma. Braz. J. of Phys Vol. 46, No. 1, 132 (2016).  DOI:10.1007/s13538-015-0377-0
  43. Effect of deformations and orientations in 100Sn daughter radioactivity. G sawhney, K Sharma, Manoj K Sharma, R K Gupta. EPJ web of Con. 117, 04013 (2016).
  44. Sub-barrier fusion dynamics of  28 208 14 82 Si Pb + reaction and related aspects. M S Gautama and Manoj K Sharma. Appl. Sci. Lett. 2(4) 2016, 136 -139.
  45. Formation and decay analysis of 98,104Cd* isotopes in 40Ca induced reactions. M S Gautam, A Kaur and Manoj K Sharma. Phys. Rev. C 92, 054605 (2015).
  46. Decay of 297118 formed in reaction 249Cf+48Ca using dynamical cluster decay model. G Sawhney, A. Kaur, Manoj K Sharma and R K Gupta Phys. Rev. C92, 064303 (2015).
  47. Decay of Zr isotopes and related nuclear structure effects using collective clusterization approach.  G Kaur, Rajni and Manoj K Sharma, Phys. Scr. T166 (2015) 014013.
  48. Decay analysis of compound nuclei with masses A approx 30--200 formed in reactions involving loosely bound projectiles" by M. Kaur, B B Singh, Manoj K. Sharma and Raj K. Gupta. Phys. Rev. C. 92, 024623 (2015).
  49. Alpha-decay chains of recoiled superheavy nuclei: A theoretical study. Niyti, G. sawhney, Manoj K. Sharma, R. K. Gupta. Phys. Rev. C 91, 054606 (2015).
  50. Fission decay analysis of n-induced reaction using collective clusterization approach. A. Kaur, G. Kaur, Manoj K. Sharma, Nucl. Phys. A 941 (2015) 152-166.
  51. Nuclear Structure study of some bubble nuclei in light mass
    region using mean field formalism. M. K. Sharma, R. N. Panda, Manoj K. Sharma, S. K. Patra. Chinese Physics C, Vol. 39, No.6, (2015) 064102.
  52. Study of reaction cross section of light mass nuclei using Glauber formalisms. M. K. Sharma, R. N. Panda, Manoj K. Sharma, S. K. Patra. Braz J Phys. 45, 138-146 (2015)
  53. Cluster decay analysis and related structure effects of fissionable heavy and superheavy nuclei, Manoj K Sharma and G. Kaur Pramana J. Phys. Vol. 85 No.3 , 431, (2015).
  54. Reaction dynamics of 34-38Mg projectiles with carbon target using Glauber model. M K Sharma, R N Panda, Manoj K Sharma,  S K Patra, AIP conf. Proc. 1675, 030093 (2015). DOI: 10.1063/1.4929309.
  55. Role of energy dependent interaction potential in sub-barrier fusion of 28S+90Zr system. M. S Gautam and Manoj K. Sharma, AIP conf. Proc. 1675, 020052 (2015). DOI: 10.1063/1.4929210.
  56. Dynamical decay of 32S and 31P formed in 20Ne+12C and 19F+12C reactions, respectively, at Ecn=60 MeV. B B singh, M. Kaur, Manoj K Sharma and R K Gupta, EPJ web of Conf. 86, 00049 (2015).
  57. Fission dynamics of 240Cf formed in 34,36S induced reactions. D. Jain, G. Kaur, Manoj K. Sharma, EPJ web of Conf. 86, 00016 (2015).
  58. α-decay chain and associated cluster emission from neutron deficient 237Cf nucleus. Phys. Soc. of Japan (JPS) conf. Proc. 6, 030085 (2015).
  59. Deformation and orientation effects in heavy particle radioactivity of Z=115. G. Sawhney, K. Sandhu, Manoj K Sharma, R K Gupta. EPJ web of Conf. 86, 00041 (2015).
  60. Role of nuclear deformations and proximity interactions in heavy particle radioactivity. G. Sawhney, K. Sandhu, Manoj K. Sharma, R. K. Gupta. Euro. Phys. J. A 50:175 (2014)
  61. Formation and decay of 200Pb* using different incoming channels. Rajni, Raj Kumar and Manoj. K. Sharma. Phys. Rev. C 90, 044604 (2014).
  62. Systematic analysis of hot Yb* isotopes using energy density formalism. D. Jain, Manoj K. Sharma, Rajni, R. Kumar, R. K. Gupta. Euro. Phys. J. A 50:155 (2014)
  63. Probing Nuclear Matter at the Extremes through application of Dynamical Cluster-decay Model to Superheavy Nuclei. Niyti, Manoj K. Sharma, K.Sandhu, R. K. Gupta. Int. Rev. of Phys. IREPHY, Vol. 8, No. 3, (2014) 86.
  64. Fragment mass identification and related aspects in the decay of 40Ca* and 39K* nuclei. Gurvinder Kaur and Manoj K. Sharma  Int. J. of Mod. Phys. E vol. 23 No. 10 (2014) 1450063.
  65. Decay and related stability aspects of 266Rf nucleus formed in 18O+248Cm reaction. K. Sandhu, Manoj. K. Sharma, A. Kaur, R. K. Gupta. Phys. Rev. C 90, 034610 (2014).
  66. Role of rotational energy and deformations in the dynamics of 6Li+90Zr reaction. G. Kaur, N. Grover, K. Sandhu, Manoj K. Sharma. Nuclear Physics A 927 (2014) 232–248.
  67. Analysis of fragment distribution and associated effects in 12,13C induced reactions M. Kaur, M K Sharma, Manoj K. Sharma Int. J. Mod. Phys. E, Vol. 23, No. 5 (2014) 1450030
  68. Dynamics of light, heavy and super heavy nuclear systems formed in heavy ion collisions Manoj K. Sharma and G. Kaur.  Pramana – J. Phys., Vol. 82, No. 5, (2014).
  69. Systematics of fusion evaporation in 58Ni+54Fe->112Xe reaction around the Coulomb barrier. M. Kaur and Manoj K Sharma, Euro J. of Phys A, (2014) 50: 61
  70. Neutron-halo structure of light nuclei studied with effects of deformations and orientations included. G. Sawhney, Manoj K. Sharma and R. K. Gupta J. Phys. G: Nucl. Part. Phys. 41 (2014) 055101 (13pp)
  71. Dynamics of 40,48Ca+238U→278,286112* reactions across the Coulomb barrier using dynamical cluster decay model. K. Sandhu, G. Kaur, Manoj K. Sharma. Nuclear Physics A 921 (2014) 114–130.
  72. Decay Mechanism of 290,292114 Superheavy Nuclei Formed in 48Ca-Induced Reactions. Kirandeep Sandhu and Manoj K. Sharma. Braz J Phys (2014) 44: 64–72
  73. Study of the decay of 291115* formed in 48Ca+243Am reaction. R.  Kumar, Manoj K. Sharma, K. Sandhu and R.K. Gupta. EPJ Web of Conf. 66, 03050 (2014).
  74. Extensions of Natural Radioactivity to 4th-Type and of the Periodic Table to Super-heavy Nuclei: B. B Singh, S Kumar, Manoj K Sharma, S K Patra. J. of Nucl. Phys. MSRA, vol.1 no. 2. 133-143 (2014).
  75.  Effect of deformation and orientation on interaction barrier and fusion cross-sections using using various proximity potentials. D. Jain. R. Kumar and Manoj K Sharma. Nucl. Phys. A 915 (2013) 106–124.
  76. Theoretical study of odd-mass Fr isotopes using the collective clusterization approach of the dynamical cluster-decay model. Gudveen Sawhney, Gurvinder Kaur, Manoj K. Sharma,* and Raj K. Gupta. Phys. Rev. C 88 034603 (2013).
  77. Dynamics of 66As* formed in exotic proton halo 8B induced reaction at near barrier energies. G. Kaur, D. Jain, R. Kumar and Manoj K Sharma. Nucl. Phys. A 916 (2013) 260-274.
  78. One-neutron and non-compound –nucleus decay contributions in 12C+93Nb reaction at below barrier energies. S. Chopra, M. Bansal, Manoj K. Sharma and R. K Gupta, Phys. Rev. C 88, 014615 (2013).
  79. Fusion-evaporation residue and α-decay chains of superheavy element Z=115 formed in 243Am+48Ca reaction using dynamical cluster decay model. R. Kumar, K. Sandhu, Manoj K. Sharma and R.K. Gupta, Phys. Rev. C 87  054610 (2013).
  80. Reaction dynamics of Pt* isotopes formed using stable and radioactive Sn beams. Deepika Jain, Raj Kumar, and Manoj K. Sharma, Phys. Rev. C 87 044612 (2013)
  81. Decay of 150,158Tb* nuclear systems formed in loosely bound 6Li-induced reactions.
     Gurvinder Kaur and Manoj K. Sharma.     Phys. Rev. C 87, 44601 (2013)
  82. Fusion-fission and related aspects using collective clusterization approach. Manoj K Sharma, AIP Conf. Proc. 1524, pp. 31-36, (2013).
  83. Entrance channel effect in the decay of 190Pt* using radioactive Sn beams. D. Jain, R. Kumar & Manoj K Sharma, AIP Conf. Proc. 1524, pp. 209-212, (2013).
  84. Possible decay mechanism of 220Ra* formed in Carbon induced reaction. M Kaur and Manoj K Sharma, AIP Conf. Proc. 1524, pp. 151-154 (2013).
  85. Reaction dynamics of halo nuclei in Glauber model using relativistic mean field densities. M.K. Sharma, Manoj K Sharma and S K Patra, AIP Conf. Proc. 1524, pp. 186-189, (2013).
  86. Stability aspect of superheavy nucleus 296116* formed in 48Ca + 248Cm reaction. K. Sandhu amd Manoj K. Sharma, AIP Conf. Proc. 1524, pp. 123-126, (2013).
  87. Dynamics of 6Li + 152Sm→ 158Tb* reaction across the Coulomb barrier. G. Kaur and Manoj K. Sharma, AIP Conf. Proc. 1524, pp. 155-158, (2013).
  88. Sticking versus non-sticking moment of inertia in the 9Be + 232Th reaction. G. Sawhney, R. Kumar, Rajni and Manoj K. Sharma, AIP Conf. Proc. 1524, pp. 174-177, (2013).
  89. Effects of deformations and orientations in the fission of the actinide nuclear system 254Fmformed in the 11B + 243Am reaction. Manpreet Kaur,  Manoj K Sharma and Raj K Gupta. Phys. Rev. C 86, 064610 (2012).    
  90. Deformation and orientation effects in the decay of 268Sgformed in a 30Si-induced reaction across the Coulomb barrier. Kirandeep Sandhu, Manoj K Sharma, Raj K Gupta, Phys. Rev. C 86, 064611 (2012).           
  91. Decay of 241Pu* formed in 9Be+232Th around Coulomb barrier using static and dynamic deformations. Gudveen Sawhney, Raj Kumar and Manoj K Sharma. Phys. Rev. C 86 034613(2012).
  92. Dynamical cluster-decay model using various formulations of a proximity potential for compact non-coplanar nuclei: Application to the 64Ni + 100Mo reaction. Manie Bansal, Sahila Chopra, Raj K. Gupta,  Raj Kumar, and  Manoj K. Sharma. Phys. Rev. C 86, 034604 (2012).
  93. Erratum: Systematic study of various proximity potentials in 208Pb-daughter cluster radioactivity. Raj Kumar and Manoj K Sharma, Phys. Rev. C 85, 069904(E) (2012).
  94. Decay of 213,217Fr*systems formed in 19F+194,198Pt reactions at Ecm=80-94 MeV.  Manoj K Sharma, Shefali kanwar and Raj K Gupta Phys. Rev. C  85, 064602 (2012).
  95. Systematic study of various proximity potentials in 208Pb daughter cluster radioactivity. Raj Kumar and Manoj K Sharma, Phys. Rev. C 85, 054612 (2012).
  96. Compound and non compound nucleus contributions in evaporation residue cross-sections of 20Ne+181Ta->201Bi* reaction at Ecm=135 MeV and 162 MeV. Gurvinder Kaur and Manoj K Sharma, Nucl. Phys. A, Vol. 884-885, 36-50 (2012).
  97. Decay mechanism of 204Po* nucleus formed in 16O and 28Si induced reactions. Manpreet Kaur  and Manoj K Sharma. Phys. Rev. C 85, 054605 (2012).
  98. Dynamical decay process of 219,220Ra* formed in 10,11B + 209Bi reactions. Gudveen Sawhney and Manoj K Sharma, Eur. Phys. J. A (2012) 48-57.
  99. Skyrme forces and the fusion-fission dynamics of the 132Sn + 64Ni 196Pt reaction. D. Jain, R. Kumar, Manoj K. Sharma and R. K Gupta. Phys. Rev. C 85, 024615 (2012).
  100. Fusion-evaporation residue as a dynamical decay process in 48Ca+249Bk->297117* reaction. Kirandeep Sandhu, Manoj K. Sharma and R. K. Gupta, Phys. Rev. C 85 024604 (2012).
  101. Systematic study of the decay of 118,122Ba* formed in 78,82Kr induced reactions at Elab=5.5 MeV/nucleon, M. Kaur, Raj Kumar and Manoj K. Sharma, Phys. Rev. C 85, 014609 (2012).
  102. Fusion excitation functions of 132Sn+64Ni reaction using l-summed Wong formula. D. Jain. R. Kumar and Manoj K Sharma.  AIP Con. Proc. 1423, 126-129 (2012).
  103. Fusion reaction cross-sections using the Wong model within Skyrme energy density based semiclassical extended Thomas Fermi approach. Raj Kumar, Manoj K Sharma and R. K Gupta, Nucl. Phys. A 870-871 (2011) 42-57.
  104. Role of higher-multipole deformations in exotic 14C cluster radioactivity, Gudveen Sawhney, Manoj K. Sharma and R. K. Gupta, Phys. Rev. C 83, 064610 (2011).
  105. Fusion excitation functions of 64Ni + 112-132Sn reactions studied on the dynamical cluster-decay model, Manoj K Sharma, Shefali Kanwar, Gudveen Sawhney, R K Gupta and Walter Greiner, J. Phys. G: Nucl. Part. Phys. 38, 055104 (2011).
  106. The decay of the compound nucleus 215Fr* formed in the 11B + 204Pb and 18O + 197Au reaction channels using the dynamical cluster-decay model, Manoj K Sharma, Gudveen Sawhney, R K Gupta and Walter Greiner, J. Phys. G: Nucl. Part. Phys. 38, 105101 (2011).
  107. Entrance channel independence in the decay of 215Fr* nucleus, Manoj K Sharma, Gudveen Sawhney, Shefali Kanwar and R K Gupta, Modern Physics letters A 25, 2022 (2010)
  108. Decay of 176,182,188,196Pt*  nuclei using the Dynamical Cluster-Decay Model, Manoj K. Sharma, Shefali Kanwar and Raj K Gupta. AIP Con. Proc. 1265 (2010) 37-40.
  109. Cluster radioactivity with effects of deformations and orientations of nuclei included, Sham K. Arun, Raj K. Gupta, Shefali Kanwar, Bir Bikram Singh, & Manoj K. Sharma, Phys. Rev. C80, 034317(2009)
  110. Decay of 202Pb formed in 48Ca + 154Sm reaction using the dynamical cluster-decay model, S Kanwar, Manoj K. Sharma, B B Singh, R K. Gupta and W. Greiner, Int. J. of Mod. Phys. E (Nucl. Phys.) Vol. 18, No. 7 (2009) 1-15.
  111. 208Pb-daughter cluster radioactivity and the deformations and orientations of nuclei, S K. Arun, R K. Gupta, B B Singh and Manoj K. Sharma, Phys. Rev. C Vol. 79, (2009)  064616.
  112. Decay of 246Bk* formed in low-energy 11B + 235U and 14N + 232Th reactions and entrance channel effects using the dynamical cluster-decay model. B B Singh, Manoj K. Sharma, R K. Gupta Physical Review C 77,054613 (2008).
  113. Entrance-channel effects in the dynamical cluster decay model for the decay of hot and rotating compound nucleus 48Cr at E*cn ~ 60 MeV. Birbikram Singh, Manoj K. Sharma, Raj K. Gupta, Int. J. of Mod. Phys. E (Nucl. Phys.) Vol. 15, No. 3 (2006) 699-717.
  114. a-nucleus structure in the fusion-fission and cluster decay modes of 56Ni formed in heavy ion reactions.   Manoj K. Sharma, Raj K. Gupta, and W. Scheid. J. Phys. G: Nucl. Part. Phys. 26   L 45 (2000).
  115. On the absence of a-nucleus structure in two center shell model. R. K. Gupta,  Manoj K. Sharma and W. Scheid. J. Phys. G: Nucl. Part. Phys. 25, L 47 (1999).
  116. Isotopic dependence of fusion cross-sections – linear relationships.   R. K. Puri,  Manoj K. Sharma and Raj K. Gupta, Euro. Phys. J. A 3, 277 (1998).
  117. Impact parameter dependence of disappearance of flow and in-medium nucleon-nucleon cross-sections. S. Kumar, Manoj K. Sharma, R. K. Puri, K. P. Singh and I. M. Govil, Phys. Rev. C 58, 3494 (1998).
  118. Analytical description of heavy ion potentials for collisions between nuclei of same shell.Manoj K. Sharma, R. K. Puri and R. K. Gupta, Euro. Phys. J. A 2, 69 (1998). API 2
  119. Calculated fusion cross-sections for neutron rich colliding nuclei, R. K. Gupta, Manoj K. Sharma and R. K. Puri, II Nuovo Cimento 110 A, 1149 (1997).
  120. Fission and cluster decay of 76Sr nucleus in the ground state and formed in heavy-ion reactions. R. K. Gupta, Manoj K. Sharma, S. Singh, C. Beck, Phys. Rev. C 56, 3242 (1997).
  121. Spin density contribution to heavy ion potentials using different nucleonic densities.Manoj K. Sharma, H. Kumar, R. K. Puri and R. K. Gupta, Phys. Rev. C 56, 1175 (1997). API 1.5
  122. Analytical calculation of fusion barriers and cross-sections for spin-saturated colliding nuclei.  Manoj K. Sharma, R. K. Puri and R. K. Gupta, Z. Physik A 359, 141 (1997).  
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