Curriculum Vitae

DR. MRUTUNJAYA BHUYAN

Senior Lecturer
  • Department of Physics
    Faculty of Science
  • 03-79672739
  • 0113-7057605

BIOGRAPHY

Presently, Dr. Mrutunjaya Bhuyan holds the position of Senior Lecturer in the Faculty of Science and acts as the Deputy Head of the Center of Theoretical and Computational Physics (CTCP) at the University of Malaya, Kuala Lumpur, Malaysia.

His academic journey includes serving as a FAPESP Postdoctoral Fellow at the Institute Tecnologico de Aeronautica, Sao Jose dos Campos, Brazil (2019-2016); a CAS Postdoctoral Fellow at the Institute of Theoretical Physics, Chinese Academy of Sciences, China (2014-2016); and a DAE Postdoctoral Fellow at the Institute of Physics, Department of Atomic Energy, India (2013-2014). He obtained his Ph.D. in Theoretical Nuclear and Astrophysics from Sambalpur University (2008-2013), and his M.Sc. in Nuclear Physics Specialisation from Sambalpur University, India (2006-2008).

His research primarily focuses on nuclear structure and reaction studies using various theoretical models. Additionally, he delves into astrophysical aspects such as neutron stars, hyperon stars, and their properties using nuclear models. His research findings have been more than 90 publications in numerous internationally recognized journals including Physics Letter B, Physical Review C, Astrophysical Journal, International Journal of Modern Physics E, Europhysics Letter, European Physical Journal A, Modern Physics Letter, Journal of Physics: Particle and Nuclear Physics, Physics of Atomic Nuclei, Particle Physics Nuclear Letter, Nuclear Physics A, Acta Physica Polonica, PRAMAN - A Scientific Journal, IEEE, Springer, and more.

Mrutunjaya Bhuyan also contributes to the scientific community as an Editorial Member of four international peer-reviewed scientific journal publishers: Journal of Nuclear Physics, Science Publishing Group (USA), SCIREA Journal of Physics (USA), and Journal of Nuclear Physics (India). He actively participates as a reviewer for various scientific peer-reviewed international journals such as the International Journal of Modern Physics, Modern Physics Letter, Physica Scripta, Canadian Journal of Physics, Moden Physics Letter, Journal of Physics, Journal of Physics G, European Physical Journal, Indian Journal of Physics, Nuclear Physics A, Journal of Nuclear Physics and more 30 Journals. Notably, he was awarded the Young Scientist Award in Physics 2018 by the Odisha Physical Society and Listed in the Top 2% of World Scientists in Respective Field in 2022 by Stanford University on Elsevier Data Repository. 

AREAS OF EXPERTISE

  • NUCLEAR PHYSICS AND NUCLEAR DATA ANALYSIS
    Relativistic Energy Density Functional
  • NUCLEAR STRUCTURE
    Nuclear structure model and methods; Exotic nuclei including superheavy; Nuclear clustering, Halo and Neutron Skin
  • ASTROPHYSICS
    Equation of state of nuclear matter and neutron star matter; Static and rotating neutron star; Application to gravitational wave
  • NUCLEAR REACTION AND SCATTERING
    Nuclear reaction models and methods; Nuclear fusion and fission; Relativistic impulse approximation and cluster decay

ACADEMIC QUALIFICATION

  • PhD (Nuclear Astrophysics), (Nuclear Astrophysics)
    Sambalpur University, India
  • MSc (Nuclear Physics), (Fizik Nuklear)
    Sambalpur University, India
  • BSc (Hons)(Physics), (Physics, Chemistry & Mathematics)
    Utkal University, India

ADMINISTRATIVE DUTIES

  • Programme Coordinator
    02 Nov 2022 - 31 Dec 2024 (Department)
  • Committee Member on Publication Ethics (COPE)
    01 Dec 2020 - 31 Dec 2022 (International)
  • Scientific Committee Member
    21 Apr 2022 - 23 Apr 2022 (International)
  • Deputy Head
    15 Apr 2020 - 31 Dec 2021 (Department of Physics, Faculty of Science)
  • Advisory Board Member
    27 Oct 2021 - 28 Dec 2021 (International)
  • Advisory Committee Member of Conference
    24 Nov 2021 - 25 Nov 2021 (International)
  • Scientific Committee Member
    10 Sep 2021 - 12 Sep 2021 (International)
  • ISFAS-21
    10 Sep 2021 - 12 Sep 2021 (International)
  • Advisory Committee Member of Conference
    29 Jul 2021 - 30 Jul 2021 (International)
  • Advisory Committee Member of Conference
    12 Jun 2021 - 13 Jun 2021 (International)
  • Coordinator
    01 Jan 2020 - 31 Dec 2020 (Department of Physics, Faculty of Science)
  • Evaluator for UMRG
    24 Jul 2020 - 31 Jul 2020 (Department of Physics, Faculty of Science)

MEMBERSHIPS

  • COMMITTEE ON PUBLICATION ETHICS: COPE, BOARD MEMBER
    Since 2020 (International)
  • ASSCOCIATE EDITOR OF JOURNAL, ASSOCIATE EDITOR
    Since 2020 (International)

AWARD AND STEWARDSHIP

  • Young Scientist Award 2018
    Odisha Physical Society , 2019 (National)

PUBLICATIONS

Article in Journal
WoS
  1. Alsultan, Theeb Y. T.; Majekodunmi, Joshua T.; Kumar, Raj; Goh, Boon Tong; Bhuyan, M. (2024). Impact of nuclear rotation corrections on alpha decay half-lives of superheavy nuclei within 98 Z 120, NUCLEAR PHYSICS A. 1041. doi:10.1016/j.nuclphysa.2023.122784
  2. Badawi, Nujud Mohammed; Batoo, Khalid Mujasam; Hussain, Sajjad; Agrawal, Namrata; Bhuyan, Mrutunjaya; Bashir, Shahid; Subramaniam, Ramesh; Kasi, Ramesh (2023). Design and Characterization of Electroconductive Graphene-Coated Cotton Fabric for Wearable Electronics, COATINGS. 13(9). doi:10.3390/coatings13091601
  3. Das, Monalisa; Majekodunmi, J. T.; Biswal, N.; Panda, R. N.; Bhuyan, M. (2023). Correlation between the nuclear structure and reaction dynamics of Ar-isotopes as projectile using the relativistic mean-field approach, NUCLEAR PHYSICS A. 1037. doi:10.1016/j.nuclphysa.2023.122703
  4. Jain, Nishu; Bhuyan, M.; Kumar, Raj (2023). Systematic study of the effect of individual rotational energy levels on the fusion cross-section of (16) O-based reactions of range 480 <= Z ( P ) Z ( T ) <= 592, PHYSICA SCRIPTA. 98(2). doi:10.1088/1402-4896/acab3d
  5. Majekodunmi, Joshua T.; Alsultan, Theeb Y. T.; Anwar, K.; Badawi, Nujud; Jain, D.; Kumar, Raj; Bhuyan, M. (2023). The alpha-particle clustering and half-lives of the newly discovered 207,208Th decay chains within relativistic-Hartree-Bogoliubov approach, NUCLEAR PHYSICS A. 1034. doi:10.1016/j.nuclphysa.2023.122652
  6. Majekodunmi, Joshua T.; Bhuyan, M.; Anwar, K.; Abdullah, N.; Kumar, Raj (2023). Preformation probability and kinematics of cluster emission yielding Pb-daughters, CHINESE PHYSICS C. 47(7). doi:10.1088/1674-1137/acbf2b
  7. Majekodunmi, Joshua T.; Kumar, R. A. J.; Bhuyan, M. (2023). Quest for a universal cluster preformation formula: A new paradigm for estimating the cluster formation energy, EPL. 143(2). doi:10.1209/0295-5075/ace475
  8. Mohammed, Nujud Badawi; Batoo, Khalid Mujasam; Hussain, Sajjad; Subramaniam, Ramesh; Kasi, Ramesh; Bhuyan, Mrutunjaya; Imran, Ahamad; Muthuramamoorthy, Muthumareeswaran (2023). Natural Solid-State Hydrogel Electrolytes Based on 3D Pure Cotton/Graphene for Supercapacitor Application, MICROMACHINES. 14(7). doi:10.3390/mi14071379
  9. Yadav, Praveen K.; Kumar, Raj; Bhuyan, M. (2023). Persistence of the N=50 shell closure over the isotopic chains of Sc, Ti, V and Cr nuclei using relativistic energy density functional, MODERN PHYSICS LETTERS A. 38(24N25). doi:10.1142/S0217732323501146
  10. Bhuyan, M.; Rana, Shilpa; Jain, Nishu; Kumar, Raj; Patra, S. K.; Carlson, B. V. (2022). Medium-dependent relativistic NN potential: Application to fusion dynamics, PHYSICAL REVIEW C. 106(4). doi:10.1103/PhysRevC.106.044602
  11. Das, Monalisa; Bhuyan, M.; Majekodunmi, Joshua T.; Biswal, N.; Panda, R. N. (2022). Structure and decay chain of fermium isotopes using relativistic mean-field approach, MODERN PHYSICS LETTERS A. 37(21). doi:10.1142/S0217732322501334
  12. Das, Monalisa; Biswal, N.; Panda, R. N.; Bhuyan, M. (2022).

    Structural evolution and shape transition in even-even Hf-isotopes within the relativistic mean-field approach

    , NUCLEAR PHYSICS A. 1019. doi:10.1016/j.nuclphysa.2021.122380
  13. Jain, Nishu; Kumar, Raj; Bhuyan, M. (2022). Exploring the ground state bulk and decay properties of the nuclei in superheavy island, NUCLEAR PHYSICS A. 1019. doi:10.1016/j.nuclphysa.2021.122379
  14. Kumar, Ankit; Das, H. C.; Pattnaik, Jeet Amrit; Patra, S. K. (2022). Systematic study for the surface properties of neutron stars, PHYSICAL REVIEW C. 105(4). doi:10.1103/PhysRevC.105.045804
  15. Kumar, Raj; Rana, Shilpa; Bhuyan, M.; Mohr, P. (2022). Fusion cross section of alpha-induced reactions for heavy target nuclei, PHYSICAL REVIEW C. 105(4). doi:10.1103/PhysRevC.105.044606
  16. Majekodunmi, Joshua T.; Bhuyan, M.; Jain, D.; Anwar, K.; Abdullah, N.; Kumar, Raj (2022). Cluster decay half-lives of Ba112-122 isotopes from the ground state and intrinsic excited state using the relativistic mean-field formalism within the preformed-cluster-decay model, PHYSICAL REVIEW C. 105(4). doi:10.1103/PhysRevC.105.044617
  17. Pattnaik, Jeet Amrit; Majekodunmi, Joshua T.; Kumar, Ankit; Bhuyan, M.; Patra, S. K. (2022). Appearance of a peak in the symmetry energy at N=126 for the Pb isotopic chain within the relativistic energy density functional approach, PHYSICAL REVIEW C. 105(1). doi:10.1103/PhysRevC.105.014318
  18. Pattnaik, Jeet Amrit; Panda, R. N.; Bhuyan, M.; Patra, S. K. (2022). Constraining the relativistic mean-field models from PREX-2 data: effective forces revisited, CHINESE PHYSICS C. 46(9). doi:10.1088/1674-1137/ac6f4e
  19. Pattnaik, Jeet Amrit; Panda, R. N.; Bhuyan, M.; Patra, S. K. (2022). Surface properties for Ne, Na, Mg, Al, and Si isotopes in the coherent density fluctuation model using the relativistic mean-field densities, CANADIAN JOURNAL OF PHYSICS. 100(2), 102-111. doi:10.1139/cjp-2021-0231
  20. Rana, Shilpa; Bhuyan, M.; Kumar, Raj (2022). Systematic study of fusion barrier characteristics within the relativistic mean-field formalism, PHYSICAL REVIEW C. 105(5). doi:10.1103/PhysRevC.105.054613
  21. Rana, Shilpa; Kumar, Raj; Patra, S. K.; Bhuyan, M. (2022). Fusion dynamics of astrophysical reactions using different transmission coefficients, EUROPEAN PHYSICAL JOURNAL A. 58(12). doi:10.1140/epja/s10050-022-00893-6
  22. Yadav, Praveen K.; Kumar, Raj; Bhuyan, M. (2022). Isospin dependent properties of the isotopic chains of Scandium and Titanium nuclei within the relativistic mean-field formalism, CHINESE PHYSICS C. 46(8). doi:10.1088/1674-1137/ac67cf
  23. Bhuyan, M., Maheshwari, B., Kassim, H. A., Yusof, N., Patra, S. K., Carlson, B. V., & Stevenson, P. D. (2021). The kinks in charge radii across N=82 and 126 revisited. Journal of Physics G-Nuclear and Particle Physics, 48(7), 13. doi: 10.1088/1361-6471/abf7d7
  24. Biswal, N., Jain, N., Kumar, R., Pradeep, A. S., Mishra, S., & Bhuyan, M. (2021). Structural and decay properties of nuclei appearing in the alpha-decay chains of (296,298,300,302,304)120 within the relativistic mean field formalism. Modern Physics Letters A, 36(24), 24. doi: 10.1142/s0217732321501698
  25. Biswal, N., Sheikh, M. K. A., Behera, D., Biswal, S. K., Patra, S. K., Yusof, N., . . . Bhuyan, M. (2021). Symmetry energy and neutron pressure of finite nuclei using the relativistic mean-field formalism. Astronomische Nachrichten, 342(1-2), 462-468. doi: 10.1002/asna.202113951
  26. Biswal, S. K., Singh, S. K., Bhuyan, M., Panda, R. N., & Patra, S. K. (2021). A bridge between finite and infinite nuclear matter. Canadian Journal of Physics, 99(5), 312-316. doi: 10.1139/cjp-2020-0104
  27. Kumar, A., Das, H. C., Bhuyan, M., & Patra, S. K. (2021). Thermal impacts on the properties of nuclear matter and young neutron star. Nuclear Physics A, 1015, 18. doi: 10.1016/j.nuclphysa.2021.122315
  28. Kumar, A., Das, H. C., Kaur, M., Bhuyan, M., & Patra, S. K. (2021). Application of the coherent density fluctuation model to study the nuclear matter properties of finite nuclei within the relativistic mean-field formalism. Physical Review C, 103(2), 8. doi: 10.1103/PhysRevC.103.024305
  29. Lourenco, O., Lenzi, C. H., Dutra, M., Frederico, T., Bhuyan, M., Negreiros, R., . . . Menezes, D. P. (2021). Neutron star cooling and GW170817 constraint within quark-meson coupling models *. Chinese Physics C, 45(2), 17. doi: 10.1088/1674-1137/abca1c
  30. Panigrahi, M., Panda, R. N., Bhuyan, M., & Patra, S. K. (2021). Exploring the alpha-decay chain of (302)122 within relativistic mean-field formalism. Canadian Journal of Physics, 99(6), 412-419. doi: 10.1139/cjp-2020-0296
  31. Rana, S., Kumar, R., & Bhuyan, M. (2021). Fusion cross section of the superheavy Z=120 nuclei within the relativistic mean-field formalism. Physical Review C, 104(2), 13. doi: 10.1103/PhysRevC.104.024619
  32. Rana, S., Kumar, R., & Bhuyan, M. (2021). Fusion dynamics of C-12+C-12 reaction: An astrophysical interest within the relativistic mean-field approach. Astronomische Nachrichten, 342(1-2), 473-477. doi: 10.1002/asna.202113953
  33. Bhuyan, M.; Kumar, Raj; Rana, Shilpa; Jain, D.; Patra, S. K.; Carlson, B., V (2020). Effect of density and nucleon-nucleon potential on the fusion cross section within the relativistic mean field formalism, PHYSICAL REVIEW C. 101(4). doi:10.1103/PhysRevC.101.044603
  34. Kaur, Manpreet; Quddus, Abdul; Kumar, Ankit; Bhuyan, M.; Patra, S. K. (2020). Effect of temperature on the volume and surface contributions in the symmetry energy of rare earth nuclei, NUCLEAR PHYSICS A. 1000. doi:10.1016/j.nuclphysa.2020.121871
  35. Lourenco, O.; Bhuyan, M.; Lenzi, C. H.; Dutra, M.; Gonzalez-Boquera, C.; Centelles, M.; Vinas, X. (2020). GW170817 constraints analyzed with Gogny forces and momentum-dependent interactions, PHYSICS LETTERS B. 803. doi:10.1016/j.physletb.2020.135306
  36. Lourenco, O.; Dutra, M.; Lenzi, C. H.; Biswal, S. K.; Bhuyan, M.; Menezes, D. P. (2020). Consistent Skyrme parametrizations constrained by GW170817, EUROPEAN PHYSICAL JOURNAL A. 56(2). doi:10.1140/epja/s10050-020-00040-z
  37. Quddus, Abdul; Bhuyan, M.; Patra, S. K. (2020). Effective surface properties of light, heavy, and superheavy nuclei, JOURNAL OF PHYSICS G-NUCLEAR AND PARTICLE PHYSICS. 47(4). doi:10.1088/1361-6471/ab4f3e
  38. Bhuyan, M., Carlson, B. V., Patra, S. K., Gupta, R. K. (2019). Neck configuration of Cm and Cf nuclei in the fission state within the relativistic mean field formalism. Physical Review C, 100(5), 9. doi:10.1103/PhysRevC.100.054312
  39. Lourenco, O., Dutra, M., Lenzi, C. H., Bhuyan, M., Biswal, S. K., Santos, B. M. (2019). A Density-dependent van der Waals Model under the GW170817 Constraint. Astrophysical Journal, 882(1), 8. doi:10.3847/1538-4357/ab3122
  40. Quddus, A., Bhuyan, M., Ahmad, S., Carlson, B. V., Patra, S. K. (2019). Temperature-dependent symmetry energy of neutron-rich thermally fissile nuclei. Physical Review C, 99(4), 11. doi:10.1103/PhysRevC.99.044314
Scopus
  1. Alsultan T.Y.T., Majekodunmi J.T., Kumar R., Goh B.T., Bhuyan M. (2024). Impact of nuclear rotation corrections on alpha decay half-lives of superheavy nuclei within 98 Z 120, Nuclear Physics A. 1041. doi:10.1016/j.nuclphysa.2023.122784
  2. Jain N., Bhuyan M., Kumar R. (2024). Implementation of a microscopic nuclear potential in the coupled-channels calculations to study the fusion dynamics of oxygen-based reactions, Physical Review C. 109(3). doi:10.1103/PhysRevC.109.034617
  3. Yadav P.K., Kumar R., Bhuyan M. (2024). Relativistic energy density functional from momentum space to coordinate space within a coherent density fluctuation model, EPL. 146(1). doi:10.1209/0295-5075/ad2d86
  4. Alsultan T.Y.T., Majekodunmi J.T., Kumar R., Goh B.T., Bhuyan M. (2023). Study of Rotational Effect on Even-Even 254,256Rf Isotopes of -Particle Radioactivity Using Various Semi-Empirical Formulae, Physics of Particles and Nuclei Letters. 20(5), 969-975. doi:10.1134/S1547477123050059
  5. Badawi N., Bhatia M., Agrawal N., Bashir S., Ramesh S., Ramesh K., Bhuyan M. (2023). Highly conductive-sensitive, single-walled carbon nanotubes poly(3,4-ethylenedioxythiophene) polystyrene sulphonate-coated cotton thread for thermally stable fabric and wearable e-textiles, Bulletin of Materials Science. 46(4). doi:10.1007/s12034-023-03043-w
  6. Badawi N.M., Batoo K.M., Hussain S., Agrawal N., Bhuyan M., Bashir S., Subramaniam R., Kasi R. (2023). Design and Characterization of Electroconductive Graphene-Coated Cotton Fabric for Wearable Electronics, Coatings. 13(9). doi:10.3390/coatings13091601
  7. Das M., Majekodunmi J.T., Biswal N., Panda R.N., Bhuyan M. (2023). Correlation between the nuclear structure and reaction dynamics of Ar-isotopes as projectile using the relativistic mean-field approach, Nuclear Physics A. 1037. doi:10.1016/j.nuclphysa.2023.122703
  8. Jain N., Bhuyan M., Kumar R. (2023). Systematic study of the effect of individual rotational energy levels on the fusion cross-section of 16 O-based reactions of range 480 Z P Z T 592, Physica Scripta. 98(2). doi:10.1088/1402-4896/acab3d
  9. Majekodunmi J.T., Alsultan T.Y.T., Anwar K., Badawi M N., Jain D., Kumar R., Bhuyan M. (2023). The -particle clustering and half-lives of the newly discovered 207,208Th decay chains within relativistic-Hartree-Bogoliubov approach, Nuclear Physics A. 1034. doi:10.1016/j.nuclphysa.2023.122652
  10. Majekodunmi J.T., Bhuyan M., Anwar K., Abdullah N., Kumar R. (2023). Preformation probability and kinematics of cluster emission yielding Pb-daughters* * Supported by the Fundamental Research Grant Scheme (FRGS/1/2019/STG02/UNIMAP/02/2) from the Ministry of Education Malaysia stipulated with the Institute of Engineering Mathematics (IMK) of the Faculty of Applied and Human Sciences UniMAP as the beholder, Science and Engineering Research Board (SERB, CRG/2021/001229), FOSTECT Project (FOSTECT.2019B.04), FAPESP Project (2017/05660-0), Chinese Physics C. 47(7). doi:10.1088/1674-1137/acbf2b
  11. Majekodunmi J.T., Jain N., Anwar K., Abdullah N., Kumar R., Bhuyan M. (2023). Decay Properties of 253, 255Rf Using the Relativistic Mean-Field Framework within the Preformed Cluster-Decay Model, Physics of Particles and Nuclei Letters. 20(6), 1361-1365. doi:10.1134/S1547477123060249
  12. Majekodunmi J.T., Kumar R., Bhuyan M. (2023). Quest for a universal cluster preformation formula: A new paradigm for estimating the cluster formation energy, EPL. 143(2). doi:10.1209/0295-5075/ace475
  13. Mohammed N.B., Batoo K.M., Hussain S., Subramaniam R., Kasi R., Bhuyan M., Imran A., Muthuramamoorthy M. (2023). Natural Solid-State Hydrogel Electrolytes Based on 3D Pure Cotton/Graphene for Supercapacitor Application, Micromachines. 14(7). doi:10.3390/mi14071379
  14. Pattnaik J.A., Naik K.C., Panda R.N., Bhuyan M., Patra S.K. (2023). Structure and reaction studies of Z= 120 isotopes using non-relativistic and relativistic mean-field formalisms, Pramana - Journal of Physics. 97(3). doi:10.1007/s12043-023-02619-9
  15. Pattnaik J.A., Panda R.N., Bhuyan M., Patra S.K. (2023). Surface and decay properties of newly synthesized 207,208Th isotopes for various -decay chains, Nuclear Physics A. 1038. doi:10.1016/j.nuclphysa.2023.122722
  16. Bhuyan M., Rana S., Jain N., Kumar R., Patra S.K., Carlson B.V. (2022). Medium-dependent relativistic NN potential: Application to fusion dynamics, Physical Review C. 106(4). doi:10.1103/PhysRevC.106.044602
  17. Das M., Bhuyan M., Majekodunmi J.T., Biswal N., Panda R.N. (2022). Structure and decay chain of fermium isotopes using relativistic mean-field approach, Modern Physics Letters A. 37(21). doi:10.1142/S0217732322501334
  18. Das M., Biswal N., Panda R.N., Bhuyan M. (2022). Structural evolution and shape transition in even-even Hf-isotopes within the relativistic mean-field approach, Nuclear Physics A. 1019. doi:10.1016/j.nuclphysa.2021.122380
  19. Jain N., Kumar R., Bhuyan M. (2022). Exploring the ground state bulk and decay properties of the nuclei in superheavy island, Nuclear Physics A. 1019. doi:10.1016/j.nuclphysa.2021.122379
  20. Kumar R., Rana S., Bhuyan M., Mohr P. (2022). Fusion cross section of -induced reactions for heavy target nuclei, Physical Review C. 105(4). doi:10.1103/PhysRevC.105.044606
  21. Majekodunmi J.T., Bhuyan M., Jain D., Anwar K., Abdullah N., Kumar R. (2022). Cluster decay half-lives of Ba 112-122 isotopes from the ground state and intrinsic excited state using the relativistic mean-field formalism within the preformed-cluster-decay model, Physical Review C. 105(4). doi:10.1103/PhysRevC.105.044617
  22. Pattnaik J.A., Majekodunmi J.T., Kumar A., Bhuyan M., Patra S.K. (2022). Appearance of a peak in the symmetry energy at N=126 for the Pb isotopic chain within the relativistic energy density functional approach, Physical Review C. 105(1). doi:10.1103/PhysRevC.105.014318
  23. Pattnaik J.A., Panda R.N., Bhuyan M., Patra S.K. (2022). Constraining the relativistic mean-field models from PREX-2 data: effective forces revisited * * Supported by SERB, Department of Science and Technology, Govt. of India, Project No. CRG/2019/002691, FOSTECT Project No. FOSTECT.2019B.04, and FAPESP Project No. 2017/05660-0, Chinese Physics C. 46(9). doi:10.1088/1674-1137/ac6f4e
  24. Rana S., Bhuyan M., Kumar R. (2022). Systematic study of fusion barrier characteristics within the relativistic mean-field formalism, Physical Review C. 105(5). doi:10.1103/PhysRevC.105.054613
  25. Rana S., Kumar R., Patra S.K., Bhuyan M. (2022). Fusion dynamics of astrophysical reactions using different transmission coefficients, European Physical Journal A. 58(12). doi:10.1140/epja/s10050-022-00893-6
  26. Yadav P.K., Kumar R., Bhuyan M. (2022). Isospin dependent properties of the isotopic chains of Scandium and Titanium nuclei within the relativistic mean-field formalism * * Supported by Science and Engineering Research Board (SERB) (CRG/2021/001229), FOSTECT (FOSTECT. 2019B.04), FAPESP (2017/05660-0), Chinese Physics C. 46(8). doi:10.1088/1674-1137/ac67cf
Others
  1. Fusion cross-section of the superheavy Z = 120 nuclei within the relativistic mean-field formalism
  2. M Bhuyan, Raj Kumar3, and S K Patra (2021) Comment on Detail study of application of the relativistic mean-field effective NN forces for heavy-ion fusion within a dynamical model , J. Phys. G: Nucl. Part. Phys. 48, 088001
  3. M. Panigrahi, R.N. Panda, M. Bhuyan, and S.K. Patra, 2021, Exploring the alpha-decay chain of 302122 within the relativistic mean-field formalism
  4. O. Lourenco, C. H. Lenzi, M. Dutra, T. Frederico, M. Bhuyan*, R. Negreiros C. V. Flores, G. Grams, and D. P. Menezes Neutron star cooling and GW170817 constraint within quark meson coupling models 2021 Chinese Physics C 45 (2021) 025101
  5. Shilpa Rana, Raj Kumar, and M. Bhuyan, (2021) Fusion dynamics of 12C + 12C reaction: An astrophysical interest within the relativistic mean field approach
  6. Bhuyan M., Carlson B. V., Patra S. K., and Gupta Raj K., (2019) Neck configuration of Cm and Cf nuclei in the fission state within the relativistic mean-field formalism, Phys. Rev. C 100, 054312.
  7. Bhuyan M., Kumar Raj, and Carlson B. V. (2019), Effect of the nucleon-nucleon interaction on the fusion cross-section within the relativistic mean-field formalism J. Phys, 1291, 012017
  8. Bhuyan, M., Patra, S. K., and Carlson, B. V. (2019) Infinite nuclear matter characteristics of the finite nuclei within the relativistic mean-field formalism Astronomische Nachrichten 340, 194
  9. Naz, T., Bhuyan, M., Ahmad, S., Patra, S. K., and Abusara, H. (2019). Correlation among the nuclear structure and effective symmetry energy of finite nuclei Nuclear Physics A 987, 295.
  10. Quddus, A., Bhuyan, M., Ahmad, S., and Carlson, B. V. (2019), Temperature-dependent symmetry energy of neutron-rich thermally fissile nuclei, Phys. Rev. C 99, 044314
Books
  1. M. Bhuyan Title of the book: Structure of drip-line and super-heavy nuclei in effective relativistic and non- relativistic interactions ISBN: 978-3-659-50292-7 Publisher's Name: Lambert Academic Publishing, Saarbrucken, Deutschland/Germany.
Chapter in Books
  1. Chapter Symmetry Energy of Finite Nuclei Using Relativistic Mean Field Densities within Coherent Density Fluctuation Model By M. Kaur, A. Kumar, A. Quddus, M. Bhuyan, and S. K. Patra Book Title: Multifragmentation in Heavy-Ion Reactions Publisher: ImprintJenny Stanford Publishing eBook ISBN9781003385134
  2. Theoretical Description of Low-Energy Nuclear Fusion R Kumar, M Bhuyan, D Jain, BV Carlson Nuclear Structure Physics, 121-144 (Online on 10th October 2020)
Article in Proceeding
WoS
  1. Bhuyan, M.; Kumar, Raj; Carlson, B., V (2019). Effect of the nucleon-nucleon interaction on the fusion cross-section within the relativistic mean field formalism, XLI BRAZILIAN MEETING ON NUCLEAR PHYSICS (RTFNB). 1291. doi:10.1088/1742-6596/1291/1/012017
Scopus
  1. Jain N., Rana S., Joshua T.M., Kumar R., Bhuyan M. (2022). Effect of shapes degrees of freedom on the fusion cross-sections of 16O+154Sm and 18O+148Nd, ECS Transactions. 107(1), 12723-12730. doi:10.1149/10701.12723ecst
  2. Majekodunmi J.T., Anwar K., Rana S., Jain N., Bhuyan M., Abdullah N., Kumar R. (2022). Systematic Analysis for Neck-length and Q-values on Cluster decay from Ba Isotopes, ECS Transactions. 107(1), 2893-2902. doi:10.1149/10701.2893ecst
  3. Majekodunmi J.T., Rana S., Jain N., Anwar K., Abdullah N., Kumar R., Bhuyan M. (2022). Relativistic R3Y Nucleon Nucleon Potential: Decay Characteristics of124 Ba Isotope Within the Preformed Cluster Decay Approach, Lecture Notes in Networks and Systems. 431, 135-142. doi:10.1007/978-981-19-0901-6_13
  4. Rana S., Jain N., Joshua T.M., Bhuyan M., Kumar R. (2022). Investigation of astrophysical S-factor for 12C + 16O and 16O + 16O reactions within the relativistic mean-field approach, ECS Transactions. 107(1), 12451-12458. doi:10.1149/10701.12451ecst
  5. Rana S., Majekodunmi J.T., Jain N., Bhuyan M., Kumar R., Patra S.K. (2022). Relativistic Mean-Field Treatment to the Fusion Cross-Section of the Reaction12 C +20 Ne Using Hill Wheeler and Morse Transmission Coefficients, Lecture Notes in Networks and Systems. 431, 239-246. doi:10.1007/978-981-19-0901-6_23
Others
  1. A. S. Pradeep and M. Bhuyan*, The Alpha-decay properties of 296;298;300;302;304120 using relativistic mean-field formalism, 2019, Proc. DAE Symp. Nucl. Phys. 64, 168
  2. Chushnyakova M. V., Gontchar I. I., Bhuyan M., and Khmyrova N. A., LXIX INTERNATIONAL CONFERENCE NUCLEUS-2019 ON NUCLEAR SPECTROSCOPY AND NUCLEAR STRUCTURE, Proceeding NUCLEUS-2019, 261 (2019)
  3. Gontchar I. I., Khmyrova N. A., Bhuyan M., and Chushnyakova M. V., IMPACT OF NN-FORCES ON THE CHARACTERISTICS OF HEAVY-ION COLLISION BARRIER,
  4. M. Bhuyan*, D. Jain, S. K. Patra, and Raj Kumar, Fusion dynamics of heavy and superheavy nuclei within the relativistic mean-field formalism 2019, Proc. DAE Symp. Nucl. Phys. 64, 430
  5. Manpreet Kaur, A. Quddus, H. C. Das, M. Bhuyan, and S. K. Patra, Temperature-dependence of symmetry energy and its volume and surface components in some rare-earth nuclei 2019, Proc. DAE Symp. Nucl. Phys. 64, 214
  6. Manpreet Kaur, Abdul Quddus, Ankit Kumar, M. Bhuyan, S. K. Patra 2019 Correlation between, symmetry energy and, the deformed magic number in some rare-earth nuclei, Proc. DAE Symp. Nucl. Phys. 64, 166
  7. B. B. Sahu, M. Bhuyan, S. K. Singh, S. K. Patra, The nucleon-nucleon potential from relativistic mean field theory, 2012, Proc. DAE Symp. Nucl. Phys. 57, 198
  8. M. Bhuyan, S. K. Singh, S. K. Patra, P. K. Panda, The role of isoscalar-isovector coupling on symmetry energy of in finite nuclear matter, 2012, Proc. DAE Symp. Nucl. Phys. 57, 608
  9. R. N. Panda, M. Bhuyan, and S. K. Patra,Energy production from neutron-rich Uranium and Thorium Isotopes, 2012, IEEE, Conference series
  10. B. B. Sahu, S. K. Singh, M. Bhuyan, S. K. Ghorui, Z. Naik, S. K. Patra, and C.R.Praharaj Band Structure Study of 161Er Nucleus, 2011, Proc. DAE Symp. Nucl. Phys. 56, 308
  11. M. Bhuyan and S. K. Patra, Journey to Super-heavy Valley, 2011, Proc. DAE Symp. Nucl. Phys. 56, 148
  12. M. Bhuyan and S. K. Patra, The structure and stability of superheavy nuclei, 2011, Proc. DAE Symp. Nucl. Phys. 56, 192
  13. M. Bhuyan, S. K. Patra, and Raj K Gupta, The RMF theory based 3-Yukawas (R3Y) vs. the Michigan 3-Yukawas (M3Y) NN interactions for the cluster radioactive decay studies, 2011, Proc. DAE Symp. Nucl. Phys. 56, 304
  14. S. Ahmad, M. Bhuyan, and S. K. Patra, Super-deformed ground state in Z=120 nuclei and -decay chain of the 292,304120 isotopes, 2011, Proc. DAE Symp. Nucl. Phys. 56, 294
  15. S. Mahapatra, B. K. Sahu, M. Bhuyan and S. K. PatraStructure of 287,288115 superheavy nuclei, 2011, Proc. DAE Symp. Nucl. Phys. 56, 272
  16. C.R.Praharaj, M. Bhuyan, S. K. Patra, Z. Naik and R. Bhowmik, Structure of extreme neutron-rich Barium and Xenon Nuclei, 2010, Proc. DAE Symp. Nucl. Phys. 55, 208
  17. M. Bhuyan, B. K. Sahu, T.R. Routray, S. K. Patra, and Raj K. Gupta, The ground state properties of Z=117 and the -decay chains of 293117 and 2941172010, Proc. DAE Symp. Nucl. Phys. 55, 26
  18. M. Bhuyan, R. N. Panda, T. R. Routray and S. K. Patra, The elastic scattering of 40,42,44,48Ca at 1.0 GeV in the framework of relativistic impulse approximation, 2010, Proc. DAE Symp. Nucl. Phys. 61, 284
  19. S.K.Tripathy, M. Bhuyan, T. R. Routray and B. Behera, Composition and EOS of b -stable Charge neutral n + p + e + m matter at finite temperature, 2010, Proc. DAE Symp. Nucl. Phys. 55, 464
  20. B. Singh, S. K. Patra, M. Bhuyan and Raj K. Gupta, Cluster radioactive decay using Relativistic mean field theory within performed cluster decay model, 2009, Proc. Int. DAE Symp. Nucl. Phys. 54, 210
  21. B. Singh, S. K. Patra, and M. Bhuyan Raj K. Gupta, Suppression of fission cross-section in a reaction having loosely bound projectile 2009, Proc. DAE Symp. Nucl. Phys. 54, 322
  22. M. Bhuyan and S. K. Patra, Nonlinear relativistic mean field Theory: Impulse Approximation, 2009, Proc. DAE Symp. Nucl. Phys. 54, 266
  23. M. Bhuyan, S. K. Patra, B. Singh, and Raj K. Gupta, Properties of Superheavy Z=122 isotopes, 2009, Proc. Int. DAE Symp. Nucl. Phys. 54, 182
  24. M. Bhuyan, S. K. Patra, B. Singh, and Raj K. Gupta, The internal substructure of 112-122Ba using relativistic mean field formalism, 2009, Proc. Int. DAE Symp. Nucl. Phys. 54, 180

RESEARCH PROJECT

International
  1. 2023 - 2026, Agha Salem Foundation
    Surface Properties of exotic nuclei at local Density within Relativistic Energy Density Functional, University of Surrey ( Principal Investigator(PI))
  2. 2022 - 2025, Department of Science and Technology (DST) and SERB, New Delhi, India
    Theoretical investigation of nuclear structure effects on the heavy ion reactions, Thapar Institute of Engineering & Technology ( Co-Researcher)
  3. 2020 - 2024, FOSTECT
    Nuclear Structure and Reaction Dynamics within effective field theory motivated relativistic mean-field approach , TDTU, Ho Chi Minh City, Vietnam. ( Co-Researcher)
  4. 2020 - 2023, International Funding
    Nuclear Structure and Reaction Dynamics within Effective Field Theory Motivated Relativistic Mean Field Approach ( Principal Investigator(PI))
  5. 2017 - 2023, Funda o de Amparo Pesquisa do Estado de S o Paulo (FAPESP)
    Theoretical Studies of the Structure and Reactions of Exotic Nuclei and Many-Body Systems , Institute tecnologico de Aeroneutica, Sao Jose dos Campos, Brazil ( Co-Researcher)
  6. 2017 - 2022, International Funding
    Theoretical study of the structure and reactions of exotic nuclei and many-body systems ( Co-Researcher)
  7. 2017 - 2022, FAPESP
    THEORETICAL STUDY OF THE STRUCTURE AND REACTIONS OF EXOTIC NUCLEI AND MANY-BODY SYSTEMS, Institute tecnologico de Aeroneutica, Sao Jose dos Campos, Brazil ( Co-Researcher)

PAPER PRESENTED

INVITED SPEAKER
  1. A new Approach to Nuetron Star Marger Evernt GW170817, National Seminar , Parala Maharaja Engineering College (BPUT) (International) (11 Aug 2023 - 12 Aug 2023)
  2. Relativistic Medium-Dependent Nucleon-Nucleon Potential: An Application to the Nuclear Fusion Study, International Symposium on Nuclear Science and Applications (SNSA 2023), SNSA 2023 Xiamen China (International) (11 Aug 2023 - 13 Aug 2023)
  3. GW170817 Binary Neutron Star Merger Event: Constraining the Equation of State of Nuclear Matter at Supranuclear density, Recent Advances in Science and Technology (RAST-2020) , IGIT (International) (06 Nov 2020 - 08 Nov 2020)
  4. NEUTRON STAR MATTER: FROM HEAVEN TO EARTH , The Trends in Current Research in Physical Science, IGIT (National) (17 Oct 2020 - 17 Oct 2020)
  5. Symmetry energy and neutron pressure of finite nuclei using the relativistic mean-field formalism, International Workshop on Astronomy and Relativistic Astrophysics, FAPESP, UNIPAC, AUAM, CNQ etc (International) (06 Sep 2020 - 12 Sep 2020)
ORAL PRESENTER
  1. Isospin asymmetry properties in exotic nuclei: A signature of shell/sub-shell closure, ISFAS-2021, Atat rk University, ERZURUM, TURKEY (International) (10 Sep 2021 - 12 Sep 2021)
  2. SHAPE TRANSITION IN HF-ISOTOPES USING RELATIVISTIC MEAN FIELD APPROACH, ISFAS-2021, Atat rk University, ERZURUM, TURKEY (International) (10 Sep 2021 - 12 Sep 2021)
  3. FUSION DYNAMICS of Sn and Pb TARGETS WITHIN THE RELATIVISTIC MEAN-FIELD APPROACH, ISFAS-2021, Atat rk University, ERZURUM, TURKEY (International) (10 Sep 2021 - 12 Sep 2021)
  4. EFFECT OF EACH ROTATIONAL ENERGY LEVEL ON THE FUSION CROSS-SECTION, ISFAS-2021, Atat rk University, ERZURUM, TURKEY (International) (10 Sep 2021 - 12 Sep 2021)
  5. EFFECT OF NECK-LENGTH AND Q-VALUE ON CLUSTER RADIOACTIVITY, ISFAS-2021, Atat rk University, ERZURUM, TURKEY (International) (10 Sep 2021 - 12 Sep 2021)
  6. GW170817 Binary Neutron Star Event: Constraining the Nuclear Equation of State at Suprasaturation Density , ICRLP -2021, ICRLP (International) (01 Sep 2021 - 02 Sep 2021)
  7. Computation Difficulties in Nuclear Astrophysics, UM Computational Science and Engineering (CSE) Symposium 2021, University of Malaya (National) (19 Feb 2021 - 20 Sep 2021)
  8. Fusion dynamics of heavy and superheavy nuclei within the relativistic mean-field formalism, DAE Symposium In Nuclear Physics, DAE & BRNS (International) (23 Dec 2019 - 27 May 2020)
  9. Anatomy of Neck Configuration in Fission State of Cm and Cf, 14TH ASIA-PACIFIC PHYSICS CONFERENCE, Institut Fizik Malaysia (International) (17 Nov 2019 - 22 Dec 2019)
OTHERS
  1. Fusion dynamics of $^{12}$C+$^{12}$C reaction: An astrophysical interest within the relativistic mean-field approach, International Workshop on Astronomy and Relativistic Astrophysics IWARA 2020, FAPESP, UNAM, CNQ and so on. (International) (06 Sep 2020 - 12 Sep 2020)
  2. Temperature-dependence of symmetry energy and its volume and surface components in some rare-earth nuclei, DAE Symposium In Nuclear Physics, DAE and BRNS (International) (23 Dec 2019 - 27 Dec 2019)
  3. Correlation between symmetry energy and the deformed magic number in some rare-earth nuclei, DAE Symposium in Nuclear Physics, Department of Atomic Energy (International) (23 Dec 2019 - 27 Dec 2019)
  4. The decay properties of 296,298,300,302,304(120) using relativistic mean-field formalism., DAE International Symposium in Nuclear Physics, Department of Atomic Energy (International) (23 Dec 2019 - 27 Dec 2019)
  5. IMPACT OF NN-FORCES ON THE CHARACTERISTICS OF HEAVY-ION COLLISION BARRIER, LXIX INTERNATIONAL CONFERENCE NUCLEUS-2019 ON NUCLEAR SPECTROSCOPY AND NUCLEAR STRUCTURE, JINR, Dubna (International) (01 Jul 2019 - 06 Jul 2019)
  6. HEAVY-ION DOUBLE-FOLDING INTERACTION BARRIERS WITH THE RELATIVISTIC MEAN FIELD NUCLEAR MATTER DENSITIES, LXIX INTERNATIONAL CONFERENCE NUCLEUS-2019 ON NUCLEAR SPECTROSCOPY AND NUCLEAR STRUCTURE, JINR, Dubna (International) (01 Jul 2019 - 06 Jul 2019)

ACADEMIC/PROF. SERVICES

Evaluation
  1. (2023) Thesis Evaluatiomn Msc, University, (Internal Evaluator)
  2. (2023) Proposal Defense Phd, University, (Internal Examiner)
  3. (2023) Thesis Examiner, University, (Internal Examiner)
  4. (2023) Thesis Examiner, University, (Internal Examiner)
  5. (2023) Thesis Examiner, National, (External Examiner)
  6. (2023) Proposal Defense, University, (Internal Examiner)
  7. (2023) Thesis Evaluation, University, (Internal Examiner)
  8. (2021) Reviewer, National, (Reviewer)
  9. (2021) Reviewer, International, (Reviewer)
  10. (2021) Reviewer, International, (Reviewer)
  11. (2021) Reviewer, International, (Reviewer)
  12. (2021) Reviewer, International, (Reviewer)
  13. (2021) Phd Thesis Evaluation, University, (Internal Examiner)
  14. (2021) Reviewer, International, (Reviewer)
  15. (2021) Reviewer, International, (Reviewer)
  16. (2021) Fyp Evaluation, University, (Internal Evaluator)
  17. (2021) Fyp Evaluation, University, (Internal Evaluator)
  18. (2021) Reviewer, International, (Reviewer)
  19. (2021) Reviewer, International, (Reviewer)
  20. (2021) Frgs Research Grant Proposal, University, (Internal Evaluator)
  21. (2021) Reviewer, International, (Reviewer)
  22. (2021) Reviewer Journal of Physics G: Nucl. Part. Physics, (Reviewer)
  23. (2020) Reviewer Journal of Physics G , (Reviewer)
  24. (2020) Reviewer International Journal of Modern Physics E, (Reviewer)
  25. (2020) Reviewer Physica Scripta , (Reviewer)
  26. (2020) Reviewer Journal of Physics G , (Reviewer)
  27. (2020) Associate Editor Journal of Nuclear Physics, (Editor)
  28. (2019) Reviewer Biochemical and Biophysical Research , (Reviewer)
  29. (2019) Reviewer Modern Physics Letter A , (Reviewer)
  30. (2019) Editorial Board Member Americal Journal of Astrophysics and Astronomy, (Editor)
  31. (2019) Reviewer Journal of Particle Physics, (Reviewer)
  32. (2019) Reviewer Heliyon , (Reviewer)
  33. (2019) Editorial Board Member SCIREA Journal of Physics , (Editor)
  34. (2018) Reviewer Canadian Journal of Physics , (Reviewer)
  35. (2018) Reviewer Insight - Physics , (Reviewer)
  36. (2018) Editorial Board Member Insight - Physics , (Editor)
  37. (2017) Reviewer International Journal of Nano and Biomaterials (IJNBM). , (Reviewer)
  38. (2017) Reviewer European Physical Journal A , (Reviewer)
  39. (2017) Editorial Board Member American Journal of Astronomy and Astrophysics , (Editor)
  40. (2016) Reviewer Indian Journal of Pure & Applied Physics (IJPAP) , (Reviewer)
  41. (2015) Physica Scripta , (Reviewer)
  42. (2015) Reviewer Modern Physics Letter A , (Reviewer)
  43. (2015) Reviewer Journal of Physics G: Particle and Nuclear Physics , (Reviewer)

SUPERVISION

Under Graduate Students
  1. (2022) Impact of Preformation Probability in Cluster Radioactivity
  2. (2022) A Self-Consistent Study of Nuclear Clustering: Typical Cases of Si Isotopes
  3. (2021) Nuclear mass excess estimations using artificial neural networks (Universiti Tunku Abdul Rahman (Utar))
  4. (2021) Unusual solutions of time-dependent Schroedinger equation for two particles
  5. (2021) Monte Carlo technique to simulate radioactive decay and evaluate integrals
  6. (2021) FYP Student
  7. (2021) FYP Project
Postgraduate Student
PhD/ Doctoral
  1. (2023) POSSIBLE DECAY MODES IN THE SUPERHEAVY ISLAND OF RANGE 98 ≤ Z ≤ 134 WITHIN THE RELATIVISTIC MEAN-FIELD APPROACH, THEEB Y T ALSULTAN
  2. (2023) High-Performance Cotton Hydrogel-Based Flexible Supercapacitors Consisting of Graphene, BADAWI NUJUD MOHAMMED M
  3. (2021) Systematic study of the nuclear reaction dynamics and related structure effects at low energies, Nishu Jain (Thapar University, Patiala, India)
  4. (2020) Nuclear Clsurting in Finite Nuclei within Effective Interaction, Majekodunmi Joshua Tolulope (Universiti Malaysia Perlis (Unimap))
  5. (2019) Properties of exotic nuclei using effective interaction: Structure and Reaction Prospective, Monalisa Das (Soa University, Bhubaneswar, India)
  6. (2019) Dynamics of Nuclear Fusion within the Relativistic Effective Interactions, Shilpa Rana (Abdul Wali Khan University Mardan)

TEACHING

Bachelor
  1. (2022) SMEB4303 - Computation and Simulation
  2. (2022) SIF2022 - Mathematical Methods Ii
  3. (2022) SIF3001 - Nuclear Physics
  4. (2021) SMEB4303 - Computation and Simulation
  5. (2021) SIF2022 - Mathematical Methods Ii
  6. (2021) SIF3001 - Nuclear Physics
  7. (2021) SIF2022 - Mathematical Methods Ii
  8. (2021) SIF3001 - Nuclear Physics
  9. (2020) SIF2022 - Mathematical Methods Ii
  10. (2020) SIF2022 - Mathematical Methods Ii
  11. (2020) SIF2022 - Mathematical Methods Ii
  12. (2020) SIF3001 - Nuclear Physics
  13. (2020) SIF3001 - Nuclear Physics
  14. (2020) SIF3001 - Nuclear Physics
  15. (2020) SIF3001 - Nuclear Physics
  16. (2020) SMEB4303 - Computation and Simulation
  17. (2020) SMES3201 - Nuclear Physics
  18. (2020) SMES3201 - Nuclear Physics
  19. (2020) SMES3201 - Nuclear Physics
  20. (2019) SIF2022 - Mathematical Methods Ii
  21. (2019) SIF2022 - Mathematical Methods Ii
  22. (2019) SIF2022 - Mathematical Methods Ii
  23. (2019) SIF3001 - Nuclear Physics
  24. (2019) SIF3001 - Nuclear Physics
  25. (2019) SIF3001 - Nuclear Physics
  26. (2019) SMES2203 - Mathematical Methods
  27. (2019) SMES2203 - Mathematical Methods
  28. (2019) SMES3201 - Nuclear Physics
  29. (2019) SMES3201 - Nuclear Physics

COURSE ATTENDED

Internal / External Course
EXTERNAL COURSE
  1. SOCIAL ENTREPRENEURSHIP (SE) MASTERCLASS, Centre for Internship Training and Academic Enrichment (CITRA) (04 Jul 2019 - 04 Jul 2019)
INTERNAL COURSE
  1. PENGENDALIAN EMOSI MELALUI TERAPI SENI (HEALING WITH ART DRAWING), Bilik Senat Aras 4 Bangunan Canseleri (07 Aug 2019 - 07 Aug 2019)
CONFERENCE
  1. 64TH DAE-BRNS SYMPOSIUM ON NUCLEAR PHYSICS, Lucknow, India (21 Dec 2019 - 28 Dec 2019)
  2. 14TH ASIA-PACIFIC PHYSICS CONFERENCE (APPC-2919), Borneo Convention Centre Kuching, Sarawak, Malaysia (17 Nov 2019 - 22 Nov 2019)
RESEARCH
  1. THE MICROSCOPIC STUDY OF NUKLEAR STRUCTURE UNDER EXTREME CONDITIONS AT INSTITUTE OF FUNDAMENTAL AND APPLIED SCIENCES (IFAS) DUY TAN UNIVERSITY, (04 Feb 2020 - 14 Feb 2020)