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Dr. P. N. Deka

Professor, Department of Mathematics
  • Email - pndeka@dibru.ac.in
  • Phone No. - 9854148361
  • Department of Mathematics
  • Designation - Professor

Profile

Dr. Paramananda Deka

Education:

1.       Bachelor’s Degree: 1984, Cotton College, Gauhati University, Guwahati, Assam.

2.       Master’s Degree: 1987, University of Delhi.

3.       Ph.D.: 1999, Centre of Plasma Physics, Gauhati University.

Professional Experiences:

1.       One year Mathematics teaching experience at H.S. and Undergraduate level at North Guwahati College. Guwahati.

2.       One year working experience as computer professional at NIC, Govt. Of India, Guwahati.

3.       Two years teaching experience at H.S. and Undergraduate level at Prgjyotish College, (1989-1991).Gauhati University, Guwahati.

4.       Teaching and research at Department of mathematics, Dibrugarh University since 1991.

Areas of Interest/ Specialization: 

                            Classical Mechanics

                            Fluid Dynamics

                            Magnetohydrodynamics

                            Plasma Dynamics

                            CFD

                            Number theory

Administrative Assignments:

1.     Head of Department, 2005 Dec. to 2008 Dec.

2.   Head of Department, 29th May, 2023 onwards. 

Academic Assignment

            1. Chief Editor of Mathematical Forum, a UGC care listed Journal. (Official Journal of Department of Mathematics, Dibrugarh University, Assam, India) During the period 2015 -2021.

Research Projects:One Major Research Project Completed.

Title of The project: Analysis of Liquid Metal MHD Flow through a Duct in presence of Strong Transverse Magnetic Field.

Funding Agency: UGC

Duration: 08/04/2011 to 31/01/2014

Fund allocated:Rs. 12.5 Lakhs

PhD Scholars: 

Sl. No.

Name

Topic

Date  of  Registration

Status (Ongoing/Completed)

1

Dr Mahindra Singh

A Study of Plasma- Maser  Effect in Inhomogeneous Plasma

 

 

Awarded on 20/05/2008

2

Dr Krishna Gopal Singha

A Study on Certain MHD flow and Heat Transfer Problems

 

Awarded on 18/12/2008

3

Dr. Anjan Borgohain

Study on Certain Nonlinear Processes in Magnetized Plasma in Presence of Drift Wave turbulence

 

 

Awarded on 24/03/2014

4

Dr. Dipjyoti Sarma

Study on Heat and Mass transfer in a Liquid Metal flow through a Duct under the influence of very Strong Transverse magnetic field

 

 

Awarded on 16/06/2015

5

Dr. Lok Bikash Gogoi

Study on the Propagation of Solitons in Inhomogeneous Plasma

 

 

Awarded on 06/03/2018

6

Dr. Muhim Chutia

Study on MHD Duct Flow with Insulated Walls in Presence of Strong Transverse Magnetic Field

 

 

Awarded on 24/10/2016

7

 Dr. Jintu Kumar Deka A Study on Plasma Instabilities Through Nonlinear Wave Particle Interaction Process in Burning Plasma.

 

 20/09/2016

 

Awarded on 01/11/2022

8

 Dr. Satyajyoti Gogoi A Study on Instabilities in Ionospheric Plasma Through Wave-Particle Interaction Proces.

 

20/09/2016 

 

Awarded on 01/03/2021

9

Dr. Padmeswar Senapati

A Study on Plasma Wave Instability Associated with Drift Wave Turbulence.

 

20/09/2016

 

Awarded on 01/06/2022

10

Mr. Ratul Kumar Sarma

A study on Wave Energy Up-Conversion Process in Space Plasma Associated with Damping of Resonant mode

 

21/10/2016

 

Ongoing

11

Ms. Raksha Mundhra

A Study On Nonlinearities Associated With Particle Heating In A Non-uniform Weakly Turbulent Plasma.

13/09/2019

Ongoing

12

Ms. Banashree Saikia

A Study on Plasma Wave Instabilities Associated with External Force Supported By Drift Motion of Particles.

05/10/2020

Ongoing 

 

13

 Mr. Bishnuram Das  A study on Nanofluid Duct Flow Under Action of Magnetic field

 

     27/09/2021

 

Ongoing 

14

Mr. Hirak Jyoti Dehingia

A Study on certain NonLinear Wave Structures Associated with Non Uniform Dusty Plasma

 

10/12/2021

 

Ongoing

15

Mr. Shiva Rao

Numerical Investigations on Energy Transfer of Some Radiative Nanofluid Flows under Transverse Magnetic Field

21/12/2021

Ongoing

16

Mr. Jintu Ozah

Dynamical Behaviour of Nonlinear Plasma Waves and Structures in Presence of Superthermal Components

 16/06/2022

 

 

Ongoing

17

Mr Vishal Saikia

A Study on MHD nanofluid flow over nonlinear boundaries

 

21/03/2023

 

Ongoing

18

Ms. Indunesi Saikia

Topic not finalised

 

    ----

Publications

  1.         “Plasma-Maser Instability of Bernsein Mode in Presence of Magnetohydrodynamic Turbulence”, Contrib. Plasma Phy., (1995), B.J. Saikia, P.N. Deka and S. Bujarbarua, Vol. 35, No. 3, pp. 263-271.
  2.        “Plasma-maser effect in magnetosphere plasma associated with MHD turbulence”, Planet. Space Sci., (1997), P.N. Deka, K.S. Goswami and S. Bujarbarua, Vol.45, No.11, pp. 1443-1447.
  3.        “Orthogonal interaction of Bernstein mode with ion-acoustic wave through plasma maser effect”,  Pramana-journal of Physics, (1998), P. N. Deka, Vol. 50, No. 4, pp. 345-354.
  4.      “MHD Flow and Heat Transfer between two Vertical Parallel plates in Presence of Uniform Inclined Magnetic field, Mathematical Forum, (2003), Krishna Gopal Singha and P. N Deka, Vol. XVI, No. I, pp. 25-37.
  5.       “Magnetohydrodynamic Heat Transfer in Two Phase Flow between two Parallel Plates in Presence of Transverse Magnetic Field”,    Mathematical Forum (2005), Krishna Gopal Singha and P.N. Deka, Vol. XVIII, No. I, pp. 24-42.
  6.         “Two-phase Magnetohydrodynamic Flow and Heat Transfer in a Horizontal Channel”, Ganita, (2005), K. G. Singha and P.N. Deka,Vol.56, No. 2, pp. 185-201.
  7.         “Plasma–maser effect in inhomogeneous plasma in the presence of drift wave turbulence”, M. Singh and P.N. Deka, Physics of Plasmas, (2005), Vol. 12, 102304-(1-7).
  8.        “Plasma-maser instability of the ion acoustic wave in the presence of lower hybrid wave turbulence in inhomogeneous plasma”, Pramana-journal of physics, (2006), M. Singh and P.N. Deka, Vol. 66, No.3, pp.547-561.
  9.        Skin-friction for unsteady free convection MHD flow between two heated vertical parallel plates”, Theoretical and Applied Mechanics (2006), Krishna Gopal Singha and P.N. Deka, Vol. 33, No.4, pp. 259-280.
  10.        “Magnetohydrodynamic Heat Transfer in Two-Phase Flow in Presence of Uniform Inclined Magnetic Field”, Bull. Cal. Math. Soc. (2009), K.G. Singha and P.N. Deka, Vol. 101, No. 1, pp. 25-36.
  11.        “Unsteady free convective flow of a temperature varying electrically conducting fluid”, Proceeding of World congress on Engineering, London, (2009), K. G. Singha , P.N. Deka, ISBN 978-988-18210-1-0 ,pp1118-1123..
  12.       “Amplification of ion acoustic wave in an inhomogeneous plasma through nonlinear wave-particle interaction with drift wave turbulence”, P.N. Deka and A. Borgohain, Physics of Plasmas, (2011), Vol. 18, 042311-(1-7).
  13.        “On unstable electromagnetic radiation through nonlinear wave –particle Interactions in Presence of Drift wave turbulence”, P.N. Deka and A Borgohain, J. Plasma Physics, (2012), Vol. 78, part 5, pp. 515-524.
  14.        “Electrostatic Instability in magnetically confined inhomogeneous plasma driven by nonlinear force”, Physics letters A, (2014), A. Borgohain and P.N. Deka, Vol. 378, pp. 790-794.
  15.      “Numerical Study on Steady Magnetohydrodynamic (MHD) Flow and Heat Transfer in a Heated Rectangular Electrically Insulated Duct under the Action of Strong Oblique Transverse magnetic Field”, International Journal of Computer Application, (2014), Muhim Chutia and P.N. Deka, Vol. 86, No. 15, pp. 27-34.
  16.         Numerical Study on MHD Mixed Convection Flow in a Vertical Insulated Square Duct with Strong Transverse Magnetic Field”, Journal of Applied Fluid Mechanics, (2015), Muhim Chutia and P.N. Deka, Vol.  8, No. 3, pp. 473-481.
  17. Numerical Solution for Coupled MHD Flow Equations in a Square Duct in the Presence of Strong Inclined Magnetic Field”, International Journal of Advanced Research in Physical Science, (2015), Muhim Chutia and P.N. Deka, Vol. 2, No. 9, pp. 20-29.
  18.       Solitary Waves in Weakly Inhomogeneous Plasma with Nonthermal Electrons, L.B. Gogoi and P.N. Deka, International Journal of Applied Engineering Research(IJAER), Vol. 10, No 9, (2015), pp.22503-22514.
  19.         “Propagation of dust acoustic solitary waves in inhomogeneous plasma with dust charge fluctuations”, Physics of Plasma 24, 033708 (2017) L.B. Gogoi and P.N. Deka
  20.       “On Amplification of Ion-Acoustic Mode in Burning Plasma in Presence of Drift Wave Turbulence”, Journal of Fusion Energy 37(), (2018).  P N Deka & J K Deka,                  DOI: 10.1007/s10894-018-0198- 6
  21.         P. N. Deka, P. Senapati, “Amplification of upper hybrid wave through nonlinear wave particle interaction in presence of lower hybrid drift wave in an inhomogeneous plasma”. Far East Journal of Mathematical Science, volume 108, Number 1, page:      73-93 (2018). Impact factor 1.04
  22.         P.N.Deka, S.J.Gogoi, "Amplification of Plasma Wave through non-linear wave-particle interaction in ionospheric plasma", International Journal of Scientific Research in Physics and Applied Sciences, Vol.7, Issue.3, pp.83-87, (2019), ISSN;2348-3423,doi.org/10.26438/ijsrpas/v7i3.8387.
  23.      S. J. Gogoi, P.N.Deka“Estimation of Growth Rate of Electromagnetic Plasma Wave through Vlasov-Maxwell Mathematical Frame in Ionospheric Plasma” Physical Science International Journal, 23(3): 1-10, (2019); ISSN: 2348-0130. DOI: 10.9734/PSIJ/2019/v23i330155.
  24.         “Numerical Solution of Unsteady MHD Couette Flow in the Presence of Uniform Suction and Injection with Hall Effects”. (2020), Iranian Journal of Science and Technology, Transactions of Mechanical Engineering.  Chutia, Muhim;                     Deka, P. N. https://doi.org/10.1007/s40997-020-00369-2
  25.           “Instability of Electron Bernstein Mode in Presence of Drift wave Turbulence Associated with Density and Temperature Gradient”(2020),Journal of Fusion Energy, https://doi.org/10.1007/s10894-020-00269-y  Vol.39, No. 6,  P. Senapati,     P. N. Deka
  26.           P. Senapati and P. N. Deka“Dispersion relation of upper hybrid wave through nonlinear wave particle interaction in an inhomogeneous plasma”, Mathematical Forum, Vol.27,2015-2019, March, (2020)
  27.           Shiva Rao and P. N. Deka, " A numerical solution using EFDM for unsteady MHD radiative Casson nanofluid flow over a porous stretching sheet with stability analysis", (2022), Heat transfer, DOI: 10.1002/htj.22679, Online
  28.   J.K. Deka and P.N. Deka, "Emission of Whistler mode Radiation with Kinetic Alfven Wavew in Burning Plasma" , The European Physical Journal Plus, 137, 1116 (2022). DOI: 10.1140/epjp/s13360-022-03330-1. 
  29.           Shiva Rao and P.N. Deka, "A Numerical Study on Heat Transfer for MHD Flow of Radiative Casson Nanofluid over a Porous Stretching Sheet", Latin American Applied Research, In Press, (2022). 
  30.          Shiva Rao and P.N. Deka, "A Numerical Study on Unsteady MHD Williamson Nanofluid flow past a Permeable moving cylinder in the presence of Thermal Radiation and Chemical Reaction.Biointerface Research in Applied Chemistry, In Press, (2022).
  31.   Shiva Rao and P.N. Deka. (2022), "A Numerical Investigation on Transport Phenomena in a Nanofluid Under the Transverse Magnetic Field Over a Stretching Plate Associated with Solar Radiation". In: Banerjee, S., Saha, A. (eds) Nonlinear Dynamics and Applications. Springer Proceedings in Complexity. Springer, Cham. https://doi.org/10.1007/978-3-030-99792-2_39
  32.      .   Jintu Ozah and P.N. Deka (2022). "Dynamical Aspects of Ion-Acoustic Solitary Waves in a Magnetically Confined Plasma in the Presence of Nonthermal Components". In: Banerjee, S., Saha, A. (eds) Nonlinear Dynamics and Applications. Springer Proceedings in Complexity. Springer, Cham. https://doi.org/10.1007/978-3-030-99792-2_22
  33.           Banashree Saikia and P.N. Deka (2022). "Non-linear Fluctuating Parts of the Particle Distribution Function in the Presence of Drift Wave Turbulence in Vlasov Plasma". In: Banerjee, S., Saha, A. (eds) Nonlinear Dynamics and Applications. Springer Proceedings in Complexity. Springer, Cham. https://doi.org/10.1007/978-3-030-99792-2_20
  34.       H.J. Dehingia and P.N. Deka (2022). "Structural Variations of Ion-Acoustic Solitons". In: Banerjee, S., Saha, A. (eds) Nonlinear Dynamics and Applications. Springer Proceedings in Complexity. Springer, Cham. https://doi.org/10.1007/978-3-030-99792-2_8.
  35.       Shiva Rao & P. N. Deka (2023) A study on MHD flow of SWCNT-Al2O3/water hybrid nanofluid past a vertical permeable cone under the influence of thermal radiation and chemical reactions, Numerical Heat Transfer, Part A: Applications, DOI: 10.1080/10407782.2023.2207731.
  36.     Ozah, J., Deka, P.N. Dynamical behaviour of nonlinear structures in superthermal plasmas associated with external periodic force. Indian J Phys 97, 2197–2208 (2023). https://doi.org/10.1007/s12648-023-02603-4
  37.       Dehingia, H. J., & Deka, P. (2023). Structural Variations of Dust Acoustic Solitary Waves (DASWs) Propagating in an Inhomogeneous Plasma. East European Journal of Physics, (1), 19-27. https://doi.org/10.26565/2312-4334-2023-1-02
  38.   Ozah, J., Deka, P.N. Behaviour of dust ion-acoustic solitary wave structures in a magnetised superthermal plasma. J. Korean Phys. Soc. (2023). https://doi.org/10.1007/s40042-023-00793-y
  39.        Das, B. R., Deka, P., & Rao, S. (2023). Numerical Analysis on MHD mixed convection flow of Al_2O_3/H_2O (Aluminum-Water) Nanofluids in a Vertical Square Duct. East European Journal of Physics, (2), 51-62. https://doi.org/10.26565/2312-4334-2023-2-02
  40.    . Dehingia, H.J., Deka, P.N. Propagation of nonlinear dust-acoustic solitary waves under the effect of non-extensive electrons in inhomogeneous collisional magnetized dusty plasma. J. Korean Phys. Soc. 83, 337–343 (2023). https://doi.org/10.1007/s40042-023-00854-2. 
  41.    Sarma, R.K., Deka, P.N. Transfer of Drift Wave Turbulence Energy to Langmuir Waves in Inhomogeneous Magnetospheric Plasma. Braz J Phys 53, 150 (2023). https://doi.org/10.1007/s13538-023-01354-1
  42. 42 . Saikia, B., & Deka, P. (2023). Generation of O-Mode in the Presence of Ion-Cyclotron Drift Wave Turbulence in a Nonuniform Plasma. East European Journal of Physics, (3), 122-132. https://doi.org/10.26565/2312-4334-2023-3-09

Courses Taken

CBSC Postgradute(Mathematics)

P.hD 6 monthly Course

Profile

Profile

Dr. Paramananda Deka

Education:

1.       Bachelor’s Degree: 1984, Cotton College, Gauhati University, Guwahati, Assam.

2.       Master’s Degree: 1987, University of Delhi.

3.       Ph.D.: 1999, Centre of Plasma Physics, Gauhati University.

Professional Experiences:

1.       One year Mathematics teaching experience at H.S. and Undergraduate level at North Guwahati College. Guwahati.

2.       One year working experience as computer professional at NIC, Govt. Of India, Guwahati.

3.       Two years teaching experience at H.S. and Undergraduate level at Prgjyotish College, (1989-1991).Gauhati University, Guwahati.

4.       Teaching and research at Department of mathematics, Dibrugarh University since 1991.

Areas of Interest/ Specialization: 

                            Classical Mechanics

                            Fluid Dynamics

                            Magnetohydrodynamics

                            Plasma Dynamics

                            CFD

                            Number theory

Administrative Assignments:

1.     Head of Department, 2005 Dec. to 2008 Dec.

2.   Head of Department, 29th May, 2023 onwards. 

Academic Assignment

            1. Chief Editor of Mathematical Forum, a UGC care listed Journal. (Official Journal of Department of Mathematics, Dibrugarh University, Assam, India) During the period 2015 -2021.

Research Projects:One Major Research Project Completed.

Title of The project: Analysis of Liquid Metal MHD Flow through a Duct in presence of Strong Transverse Magnetic Field.

Funding Agency: UGC

Duration: 08/04/2011 to 31/01/2014

Fund allocated:Rs. 12.5 Lakhs

PhD Scholars: 

Sl. No.

Name

Topic

Date  of  Registration

Status (Ongoing/Completed)

1

Dr Mahindra Singh

A Study of Plasma- Maser  Effect in Inhomogeneous Plasma

 

 

Awarded on 20/05/2008

2

Dr Krishna Gopal Singha

A Study on Certain MHD flow and Heat Transfer Problems

 

Awarded on 18/12/2008

3

Dr. Anjan Borgohain

Study on Certain Nonlinear Processes in Magnetized Plasma in Presence of Drift Wave turbulence

 

 

Awarded on 24/03/2014

4

Dr. Dipjyoti Sarma

Study on Heat and Mass transfer in a Liquid Metal flow through a Duct under the influence of very Strong Transverse magnetic field

 

 

Awarded on 16/06/2015

5

Dr. Lok Bikash Gogoi

Study on the Propagation of Solitons in Inhomogeneous Plasma

 

 

Awarded on 06/03/2018

6

Dr. Muhim Chutia

Study on MHD Duct Flow with Insulated Walls in Presence of Strong Transverse Magnetic Field

 

 

Awarded on 24/10/2016

7

 Dr. Jintu Kumar Deka A Study on Plasma Instabilities Through Nonlinear Wave Particle Interaction Process in Burning Plasma.

 

 20/09/2016

 

Awarded on 01/11/2022

8

 Dr. Satyajyoti Gogoi A Study on Instabilities in Ionospheric Plasma Through Wave-Particle Interaction Proces.

 

20/09/2016 

 

Awarded on 01/03/2021

9

Dr. Padmeswar Senapati

A Study on Plasma Wave Instability Associated with Drift Wave Turbulence.

 

20/09/2016

 

Awarded on 01/06/2022

10

Mr. Ratul Kumar Sarma

A study on Wave Energy Up-Conversion Process in Space Plasma Associated with Damping of Resonant mode

 

21/10/2016

 

Ongoing

11

Ms. Raksha Mundhra

A Study On Nonlinearities Associated With Particle Heating In A Non-uniform Weakly Turbulent Plasma.

13/09/2019

Ongoing

12

Ms. Banashree Saikia

A Study on Plasma Wave Instabilities Associated with External Force Supported By Drift Motion of Particles.

05/10/2020

Ongoing 

 

13

 Mr. Bishnuram Das  A study on Nanofluid Duct Flow Under Action of Magnetic field

 

     27/09/2021

 

Ongoing 

14

Mr. Hirak Jyoti Dehingia

A Study on certain NonLinear Wave Structures Associated with Non Uniform Dusty Plasma

 

10/12/2021

 

Ongoing

15

Mr. Shiva Rao

Numerical Investigations on Energy Transfer of Some Radiative Nanofluid Flows under Transverse Magnetic Field

21/12/2021

Ongoing

16

Mr. Jintu Ozah

Dynamical Behaviour of Nonlinear Plasma Waves and Structures in Presence of Superthermal Components

 16/06/2022

 

 

Ongoing

17

Mr Vishal Saikia

A Study on MHD nanofluid flow over nonlinear boundaries

 

21/03/2023

 

Ongoing

18

Ms. Indunesi Saikia

Topic not finalised

 

    ----
Publications

Publications

 

  1.         “Plasma-Maser Instability of Bernsein Mode in Presence of Magnetohydrodynamic Turbulence”, Contrib. Plasma Phy., (1995), B.J. Saikia, P.N. Deka and S. Bujarbarua, Vol. 35, No. 3, pp. 263-271.
  2.        “Plasma-maser effect in magnetosphere plasma associated with MHD turbulence”, Planet. Space Sci., (1997), P.N. Deka, K.S. Goswami and S. Bujarbarua, Vol.45, No.11, pp. 1443-1447.
  3.        “Orthogonal interaction of Bernstein mode with ion-acoustic wave through plasma maser effect”,  Pramana-journal of Physics, (1998), P. N. Deka, Vol. 50, No. 4, pp. 345-354.
  4.      “MHD Flow and Heat Transfer between two Vertical Parallel plates in Presence of Uniform Inclined Magnetic field, Mathematical Forum, (2003), Krishna Gopal Singha and P. N Deka, Vol. XVI, No. I, pp. 25-37.
  5.       “Magnetohydrodynamic Heat Transfer in Two Phase Flow between two Parallel Plates in Presence of Transverse Magnetic Field”,    Mathematical Forum (2005), Krishna Gopal Singha and P.N. Deka, Vol. XVIII, No. I, pp. 24-42.
  6.         “Two-phase Magnetohydrodynamic Flow and Heat Transfer in a Horizontal Channel”, Ganita, (2005), K. G. Singha and P.N. Deka,Vol.56, No. 2, pp. 185-201.
  7.         “Plasma–maser effect in inhomogeneous plasma in the presence of drift wave turbulence”, M. Singh and P.N. Deka, Physics of Plasmas, (2005), Vol. 12, 102304-(1-7).
  8.        “Plasma-maser instability of the ion acoustic wave in the presence of lower hybrid wave turbulence in inhomogeneous plasma”, Pramana-journal of physics, (2006), M. Singh and P.N. Deka, Vol. 66, No.3, pp.547-561.
  9.        Skin-friction for unsteady free convection MHD flow between two heated vertical parallel plates”, Theoretical and Applied Mechanics (2006), Krishna Gopal Singha and P.N. Deka, Vol. 33, No.4, pp. 259-280.
  10.        “Magnetohydrodynamic Heat Transfer in Two-Phase Flow in Presence of Uniform Inclined Magnetic Field”, Bull. Cal. Math. Soc. (2009), K.G. Singha and P.N. Deka, Vol. 101, No. 1, pp. 25-36.
  11.        “Unsteady free convective flow of a temperature varying electrically conducting fluid”, Proceeding of World congress on Engineering, London, (2009), K. G. Singha , P.N. Deka, ISBN 978-988-18210-1-0 ,pp1118-1123..
  12.       “Amplification of ion acoustic wave in an inhomogeneous plasma through nonlinear wave-particle interaction with drift wave turbulence”, P.N. Deka and A. Borgohain, Physics of Plasmas, (2011), Vol. 18, 042311-(1-7).
  13.        “On unstable electromagnetic radiation through nonlinear wave –particle Interactions in Presence of Drift wave turbulence”, P.N. Deka and A Borgohain, J. Plasma Physics, (2012), Vol. 78, part 5, pp. 515-524.
  14.        “Electrostatic Instability in magnetically confined inhomogeneous plasma driven by nonlinear force”, Physics letters A, (2014), A. Borgohain and P.N. Deka, Vol. 378, pp. 790-794.
  15.      “Numerical Study on Steady Magnetohydrodynamic (MHD) Flow and Heat Transfer in a Heated Rectangular Electrically Insulated Duct under the Action of Strong Oblique Transverse magnetic Field”, International Journal of Computer Application, (2014), Muhim Chutia and P.N. Deka, Vol. 86, No. 15, pp. 27-34.
  16.         Numerical Study on MHD Mixed Convection Flow in a Vertical Insulated Square Duct with Strong Transverse Magnetic Field”, Journal of Applied Fluid Mechanics, (2015), Muhim Chutia and P.N. Deka, Vol.  8, No. 3, pp. 473-481.
  17. Numerical Solution for Coupled MHD Flow Equations in a Square Duct in the Presence of Strong Inclined Magnetic Field”, International Journal of Advanced Research in Physical Science, (2015), Muhim Chutia and P.N. Deka, Vol. 2, No. 9, pp. 20-29.
  18.       Solitary Waves in Weakly Inhomogeneous Plasma with Nonthermal Electrons, L.B. Gogoi and P.N. Deka, International Journal of Applied Engineering Research(IJAER), Vol. 10, No 9, (2015), pp.22503-22514.
  19.         “Propagation of dust acoustic solitary waves in inhomogeneous plasma with dust charge fluctuations”, Physics of Plasma 24, 033708 (2017) L.B. Gogoi and P.N. Deka
  20.       “On Amplification of Ion-Acoustic Mode in Burning Plasma in Presence of Drift Wave Turbulence”, Journal of Fusion Energy 37(), (2018).  P N Deka & J K Deka,                  DOI: 10.1007/s10894-018-0198- 6
  21.         P. N. Deka, P. Senapati, “Amplification of upper hybrid wave through nonlinear wave particle interaction in presence of lower hybrid drift wave in an inhomogeneous plasma”. Far East Journal of Mathematical Science, volume 108, Number 1, page:      73-93 (2018). Impact factor 1.04
  22.         P.N.Deka, S.J.Gogoi, "Amplification of Plasma Wave through non-linear wave-particle interaction in ionospheric plasma", International Journal of Scientific Research in Physics and Applied Sciences, Vol.7, Issue.3, pp.83-87, (2019), ISSN;2348-3423,doi.org/10.26438/ijsrpas/v7i3.8387.
  23.      S. J. Gogoi, P.N.Deka“Estimation of Growth Rate of Electromagnetic Plasma Wave through Vlasov-Maxwell Mathematical Frame in Ionospheric Plasma” Physical Science International Journal, 23(3): 1-10, (2019); ISSN: 2348-0130. DOI: 10.9734/PSIJ/2019/v23i330155.
  24.         “Numerical Solution of Unsteady MHD Couette Flow in the Presence of Uniform Suction and Injection with Hall Effects”. (2020), Iranian Journal of Science and Technology, Transactions of Mechanical Engineering.  Chutia, Muhim;                     Deka, P. N. https://doi.org/10.1007/s40997-020-00369-2
  25.           “Instability of Electron Bernstein Mode in Presence of Drift wave Turbulence Associated with Density and Temperature Gradient”(2020),Journal of Fusion Energy, https://doi.org/10.1007/s10894-020-00269-y  Vol.39, No. 6,  P. Senapati,     P. N. Deka
  26.           P. Senapati and P. N. Deka“Dispersion relation of upper hybrid wave through nonlinear wave particle interaction in an inhomogeneous plasma”, Mathematical Forum, Vol.27,2015-2019, March, (2020)
  27.           Shiva Rao and P. N. Deka, " A numerical solution using EFDM for unsteady MHD radiative Casson nanofluid flow over a porous stretching sheet with stability analysis", (2022), Heat transfer, DOI: 10.1002/htj.22679, Online
  28.   J.K. Deka and P.N. Deka, "Emission of Whistler mode Radiation with Kinetic Alfven Wavew in Burning Plasma" , The European Physical Journal Plus, 137, 1116 (2022). DOI: 10.1140/epjp/s13360-022-03330-1. 
  29.           Shiva Rao and P.N. Deka, "A Numerical Study on Heat Transfer for MHD Flow of Radiative Casson Nanofluid over a Porous Stretching Sheet", Latin American Applied Research, In Press, (2022). 
  30.          Shiva Rao and P.N. Deka, "A Numerical Study on Unsteady MHD Williamson Nanofluid flow past a Permeable moving cylinder in the presence of Thermal Radiation and Chemical Reaction.Biointerface Research in Applied Chemistry, In Press, (2022).
  31.   Shiva Rao and P.N. Deka. (2022), "A Numerical Investigation on Transport Phenomena in a Nanofluid Under the Transverse Magnetic Field Over a Stretching Plate Associated with Solar Radiation". In: Banerjee, S., Saha, A. (eds) Nonlinear Dynamics and Applications. Springer Proceedings in Complexity. Springer, Cham. https://doi.org/10.1007/978-3-030-99792-2_39
  32.      .   Jintu Ozah and P.N. Deka (2022). "Dynamical Aspects of Ion-Acoustic Solitary Waves in a Magnetically Confined Plasma in the Presence of Nonthermal Components". In: Banerjee, S., Saha, A. (eds) Nonlinear Dynamics and Applications. Springer Proceedings in Complexity. Springer, Cham. https://doi.org/10.1007/978-3-030-99792-2_22
  33.           Banashree Saikia and P.N. Deka (2022). "Non-linear Fluctuating Parts of the Particle Distribution Function in the Presence of Drift Wave Turbulence in Vlasov Plasma". In: Banerjee, S., Saha, A. (eds) Nonlinear Dynamics and Applications. Springer Proceedings in Complexity. Springer, Cham. https://doi.org/10.1007/978-3-030-99792-2_20
  34.       H.J. Dehingia and P.N. Deka (2022). "Structural Variations of Ion-Acoustic Solitons". In: Banerjee, S., Saha, A. (eds) Nonlinear Dynamics and Applications. Springer Proceedings in Complexity. Springer, Cham. https://doi.org/10.1007/978-3-030-99792-2_8.
  35.       Shiva Rao & P. N. Deka (2023) A study on MHD flow of SWCNT-Al2O3/water hybrid nanofluid past a vertical permeable cone under the influence of thermal radiation and chemical reactions, Numerical Heat Transfer, Part A: Applications, DOI: 10.1080/10407782.2023.2207731.
  36.     Ozah, J., Deka, P.N. Dynamical behaviour of nonlinear structures in superthermal plasmas associated with external periodic force. Indian J Phys 97, 2197–2208 (2023). https://doi.org/10.1007/s12648-023-02603-4
  37.       Dehingia, H. J., & Deka, P. (2023). Structural Variations of Dust Acoustic Solitary Waves (DASWs) Propagating in an Inhomogeneous Plasma. East European Journal of Physics, (1), 19-27. https://doi.org/10.26565/2312-4334-2023-1-02
  38.   Ozah, J., Deka, P.N. Behaviour of dust ion-acoustic solitary wave structures in a magnetised superthermal plasma. J. Korean Phys. Soc. (2023). https://doi.org/10.1007/s40042-023-00793-y
  39.        Das, B. R., Deka, P., & Rao, S. (2023). Numerical Analysis on MHD mixed convection flow of Al_2O_3/H_2O (Aluminum-Water) Nanofluids in a Vertical Square Duct. East European Journal of Physics, (2), 51-62. https://doi.org/10.26565/2312-4334-2023-2-02
  40.    . Dehingia, H.J., Deka, P.N. Propagation of nonlinear dust-acoustic solitary waves under the effect of non-extensive electrons in inhomogeneous collisional magnetized dusty plasma. J. Korean Phys. Soc. 83, 337–343 (2023). https://doi.org/10.1007/s40042-023-00854-2. 
  41.    Sarma, R.K., Deka, P.N. Transfer of Drift Wave Turbulence Energy to Langmuir Waves in Inhomogeneous Magnetospheric Plasma. Braz J Phys 53, 150 (2023). https://doi.org/10.1007/s13538-023-01354-1
  42. 42 . Saikia, B., & Deka, P. (2023). Generation of O-Mode in the Presence of Ion-Cyclotron Drift Wave Turbulence in a Nonuniform Plasma. East European Journal of Physics, (3), 122-132. https://doi.org/10.26565/2312-4334-2023-3-09
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