Department of Mathematics

Dr. Jyoti Prakash

Name:  Dr. Jyoti Prakash

Designation:   Professor
Email: jpsmaths67@gmail.com
Contact : 9418458026
Qualifications: M. Sc. (Maths), M. Phil., Ph.D.
Specialization/area of interest : Hydrodynamic Stability Theory/ Differential Equations, Solid Mechanics
Teaching and Research Experience: 27 years
Awards/Fellowships: PDF(NBHM)
Research Information:
No. of Ph.D. guided: 07
No. of M.Phil guided: 19
Research Project completed: 01, UGC-MRP (2015-18)
Research Publications(total) : 103

LIST OF  PUBLICATIONS

  • 1. M.B. Banerjee, J.R. Gupta, R.G. Shandil and Jyoti Prakash, Breakdown of the Classical Equations and Existence of Hydrodynamic Instability in Single Diffusive Bottom Heavy Systems, J. Math. Anal. and Appl. (USA), 175, (1993) 458-475, (Elsevier).
  • 2. M.B. Banerjee, J.R. Gupta, R.G. Shandil and Jyoti Prakash, Upper Limits to the Complex Growth Rates in Thermohaline Instability, J. Math. Anal. and Appl.( USA), 167, (1992) 66-73, (Elsevier).
  • 3. M.B. Banerjee, J.R. Gupta, R.G. Shandil and Jyoti Prakash, Upper Limits to the Complex Growth Rates in Thermohaline Instability, Ganita (India) 41, (1990) 123.
  • 4. M.B. Banerjee, J.R. Gupta, R.G. Shandil and Jyoti Prakash, On Thermohaline Convection of Veronis Type, J. Math. Anal. and Appl. (USA) 179, (1993) 327-334, (Elsevier).
  • 5. M.B. Banerjee, J.R. Gupta, K.C. Sharma and Jyoti Prakash, On Thermohaline Convection of Veronis Type, Ganita (India) 42, (1991) 81.
  • 6. M.B. Banerjee, J.R. Gupta, R.G. Shandil, S.P. Katyal, Ajaib Singh and Jyoti Prakash, On the Hydrodynamic Instability of Superposed Fluids, Ganita (India), 45, (1994) 101.
  • 7. Jyoti Prakash, Ajaib Singh and Savita Sharma, Banerjee et al’s Characterization Theorem in Thermohaline Convection and its Magnetorotatory Extension, Proceedings of Indian Academy of Sciences, 103, (1993) 197-207, (Springer).
  • 8. Ajaib Singh, Jyoti Prakash and Savita Sharma, Banerjee et al’s Characterization Theorem in Thermohaline Convection and its Rotatory Extension, Ganita (India), 45, (1994) 21-29.
  • 9. Jyoti Prakash, A Mathematical Theorem for Thermohaline Convection of the Veronis Type with Viscosity Variations, Indian J.Pure and Applied Maths, 26 (8), (1995) 813- (Springer).
  • 10. Jyoti Prakash and Vinod Kumar, A Mathematical Theorem for Magnetohydrodynamic Thermohaline Convection of the Veronis Type with Viscosity Variations. Published in National Conference on Advances in Mathematics and its Applications in NIT, Hamirpur (India) (2008) 112.
  • 11. M.B. Banerjee, R.G. Shandil. Jyoti Prakash, Balraj Singh Bandral, Prem Lal and Vinay Kanwar, On Howard’s Conjecture in Heterogeneous Shear Flows Instability of Modified S – Waves, Indian J. Pure and Applied Maths, 28 (6), (1997) 925, (Springer).
  • 12. Jyoti Prakash and Vinod Kumar, A Characterization Theorem in Thermohaline convection in Porous Medium, Recent Advances in Continuum Mechanics and Algebra, Regal Publication(2010).
  • 13. Jyoti Prakash and Vinod Kumar, On the nonexistence of oscillatory motions in Thermohaline convection of Veronis type in porous medium, J. Raj. Acad. Phy. Sc., 10(4), (2011) 331-338.
  • 14. Jyoti Prakash, On stationary convection and oscillatory motions in ferromagnetic convection in a ferrofluid layer, J. Magnetism and Magnetic Materials, (Elsevier, Holland) 324, (2012) 1523-1527.
  • 15. Jyoti Prakash and Sanjay Kumar Gupta, A mathematical theorem in magnetorotatory thermohaline convection in porous medium, Int. J. Math. Arch., 3(12), (2012) 4997-5005.
  • 16. Jyoti Prakash, Sanjay Kumar Gupta and Vinod Kumar, A mathematical theorem in magnetothermohaline convection in porous medium, Adv. Appl. Sc. Res., 3(4),(2012) 2346-2354.
  • 17. Jyoti Prakash and Sanjay Kumar Gupta, Characterization of Thermohaline Convection in Porous Medium: Brinkman Model, Int. J. Eng. Res. and Appl. (IJERA), 2(6), (2012) 1082-1087.
  • 18. Jyoti Prakash and Sanjay Kumar Gupta, A Characterization Theorem in Rotatory Thermohaline Convection of Veronis Type in Porous Medium, Res. J.  Eng. Tech., 3(2), (2012) 133-139.
  • 19. Jyoti Prakash and Sanjay Kumar Gupta, On arresting the complex growth rates in ferromagnetic convection with magnetic field dependent viscosity in a rotating ferrofluid layer, J. Magnetism and Magnetic Materials, 345, (2013) 201–207, (Elsevier, Holland).
  • 20. Jyoti Prakash, On arresting the complex growth rates in ferromagnetic convection in a ferrofluid saturated porous layer, J. Porous Media, 16(3),(2013)217-226, (Begell House, USA).
  • 21. Jyoti Prakash and Sanjay Kumar Gupta, On Non existence of Oscillatory Motions in Rotating Thermohaline Convection in Porous Medium: Darcy-Brinkman Model, Int. J. Phy. and Math. Sc., 4(1), (2013) 318-331.
  • 22. Jyoti Prakash and Renu Bala, On the Characterization of Nonoscillatory Motions in Maxwell Fluid in a Porous Medium Heated from Below, Res. J. Sc. Tech., 1(1), (2013) 51-54.
  • 23. Jyoti Prakash and Kanu Vaid, On linear growth rates in thermohaline convection with viscosity variations, Res. J. Sc. Tech., 1(1), (2013) 140-143.
  • 24. Jyoti Prakash, On exchange of stabilities in ferromagnetic convection in a rotating porous medium, Int. J. Fluid Mechanics Research, 40(5), (2013) 391-404, (Begell House, USA).  
  • 25. Jyoti Prakash and Sanjay Kumar Gupta, A Mathematical Theorem in Magnetorotatory Thermohaline Convection in Porous Medium: Brinkman Model, Int. J. App. Sc. Eng. Res., 2(4), (2013) 404-415.
  • 26. Jyoti Prakash and Sanjay Kumar Gupta, On Non-Existence of Oscillatory Motions in Thermohaline Convection in Porous Medium: Darcy-Brinkman Model, Acta Ciencia Indica, XXXIX M(4), (2013) 385-396.
  • 27. Jyoti Prakash, Renu Bala, Kanu Vaid, On stationary convection and oscillatory motions in Maxwell Fluid in a porous medium heated from below (The case of hydrodynamic boundary and constant flux conditions), Proceedings of National Conference on Advances in Mathematics and its Applications., June 2013, NIT Hamirpur, Himachal Pradesh, India. 91-95.
  • 28. Jyoti Prakash, Kanu Vaid, Renu Bala, On hydrodynamic thermohaline instability in porous medium: Darcy Model, Proceedings of National Conference on Advances in Mathematics and its Applications., June 2013, NIT Hamirpur, Himachal Pradesh, India. 84-90.
  • 29. Jyoti Prakash and Kanu Vaid, Characterization of magnetorotatory thermohaline instability in porous medium: Darcy Brinkman model, Int. J. Innov. Res. Sc. Eng. Tech.,  2(12), (December 2013)7266-7272.
  • 30. Jyoti Prakash, Kanu Vaid, Renu Bala and Vinod Kumar, Characterization of rotatory thermohaline instability in porous medium: Darcy model, Proceedings of the Fortieth National Conference on Fluid Mechanics and Fluid Power December, 12-14, 2013, NIT Hamirpur, Himachal Pradesh, India. FMFP 2013-311,1161-1168.
  • 31. Jyoti Prakash, Renu Bala, Kanu Vaid and Vinod Kumar, On arresting the linear growth rate of a Maxwell fluid in a porous Medium heated from below, Proceedings of the Fortieth National Conference on Fluid Mechanics and Fluid Power December, 12-14, 2013, NIT Hamirpur, Himachal Pradesh, India. FMFP 2013-312, 1169-1176.
  • 32. Jyoti Prakash, On the characterization of non-oscillatory motions in ferromagnetic convection with magnetic field dependent viscosity in a rotating porous medium, J. Egyptian Mathematical Society, 22, (2014) 286–291, (Springer).
  • 33. Jyoti Prakash, On exchange of stabilities in ferromagnetic convection in a rotating ferrofluid saturated porous layer, J. Appl. Fluid Mech., Iran, 7(1) (2014) 147-154.
  • 34. Jyoti Prakash, Kanu Vaid and Renu Bala, Upper Limits to the Complex Growth Rates in Triply Diffusive Convection, Proc. Ind. Nat. Sc. Acad., 80(1) (2014)115-122.
  • 35. Jyoti Prakash and Renu Bala, On arresting the complex growth rates in ferromagnetic convection in a rotating porous medium, Int. J. Innov. Res. Sc. Eng. Tech., 3(1), (January 2014) 8330-8339.
  • 36. Jyoti Prakash, Kanu Vaid and Renu Bala, Characterization of Magnetorotatory Thermohaline instability in porous Medium: Darcy Model, Int. J. Tech., 4(1) (2014) 32-36.
  • 37. Jyoti Prakash, Virender Singh, Shweta Manan and Vinod Kumar, Upper Limits to the complex growth rates in triply Diffusive Convection in porous medium, Int. J. Tech., 4(1) (2014) 106-108.
  • 38. Jyoti Prakash and Rajeev Kumar, Upper Bounds for the complex growth rate thermohaline convection of Veronis and Stern type with viscosity variations, Int. J. Tech., 4(1) (2014) 117-120.
  • 39. Jyoti Prakash, Shweta Manan and Virender Singh, On the Characterization of Nonoscillatory Motions in triply Diffusive Convection in porous medium, Int. J. Tech.,  4(1) (2014) 168-170.
  • 40. Jyoti Prakash, Sanjay Kumar Gupta, Renu Bala and Kanu Vaid, A Semicircle theorem in triply Diffusive Convection, Int. J. Tech.,  4(1) (2014) 210-213.
  • 41. Jyoti Prakash, Renu Bala and Kanu Vaid, On the Principle of the Exchange of Stabilities in Rotatory Triply Diffusive Convection, Proc. Nat. Acad. Sc., Physical Sciences, India, (Springer). 84(3) (2014) 433–439. 
  • 42.  Jyoti Prakash, Renu Bala and Kanu Vaid, On the Characterization of nonoscillatory motions in Magnetorotatory Triply Diffusive convection, Proc. Ind. Nat. Sc. Acad., 80(2) (2014)  197-209.
  • 43. Jyoti Prakash and Sanjay Kumar Gupta, Upper Bounds for the Complex Growth Rate of Thermohaline Convection in a Porous Medium heated from below, Int. J. Appl. Maths. Mech, Hong Kong  10 (7) (2014)  1-15.
  • 44. Jyoti Prakash and Kanu Vaid, On hydromagnetic thermohaline instability of Veronis type in porous medium, Int. J. Math. Arch. 5(8), (2014) 129-134
  • 45.  Jyoti Prakash, Renu Bala and Kanu Vaid, On the characterization of magnetohydrodynamic triply diffusive convection, J. Magn. Magn. Mater. (Elsevier), 377(2015)378–385
  • 46. Jyoti Prakash, Kanu Vaid and Renu Bala, On the Characterization of Nonoscillatory Motions in Triply Diffusive Convection, Int. J. Fluid Mech. Res., 41(5), (2014),409-416(Begell House, USA) .
  • 47.   Jyoti Prakash, Kanu Vaid  and Renu Bala, Upper Limits to the Complex Growth Rates in Magnetorotatory Triply Diffusive Convection, Proc. Nat. Acad. Sc., Physical Sciences, India (Springer), (2014) 85(1):87–97.
  • 48. Jyoti Prakash, Kanu Vaid and Renu Bala, On Hydromagnetic Thermohaline Instability in Porous Medium, Recent Trends in Algebra and Mechanics, Indo American Books, (2014), 121-130 (Delhi).
  • 49. Jyoti Prakash and Rajeev Kumar, Upper Limits for the Complex Growth Rate in Double Diffusive Convection with Viscosity Variations, Recent Trends in Algebra and Mechanics, Indo American Books, (2014), 257-264 (Delhi).
  • 50. Jyoti Prakash, Virender Singh and Shweta Manan, Upper Bounds for the Linear Growth Rates in Triply Diffusive Convection in Porous Medium, Recent Trends in Algebra and Mechanics, Indo American Books, (2014), 283-290 (Delhi).
  • 51. Jyoti Prakash, Renu Bala and Kanu Vaid, On Arresting the Complex Growth Rates in Triply Diffusive Convection, Recent Trends in Algebra and Mechanics, Indo American Books, (2014), 291-298 (Delhi).
  • 52. Jyoti Prakash, Rajeev Kumar and Vinod Kumar, On Exchange Principle in Magnetohydrodynamic Triply Diffusive Convection with Viscosity Variations, Res. J.  Eng. Tech., 6(1), (2015), 1-5.
  • 53. Jyoti Prakash, Shweta Manan, Virender Singh and Kanu Vaid, On Rotatory Hydrodynamic Triply Diffusive Convection in Porous Medium: Darcy Model, Res. J.  Eng. Tech., 6(1), (2015), 19-22.
  • 54. Jyoti Prakash, Renu Bala and Kultaran Kumari, Upper Limits to the Linear Growth Rate in Triply Diffusive Convection, Res. J.  Eng. Tech., 6(1), (2015), 47-49.
  • 55. Jyoti Prakash, Kanu Vaid, Renu Bala and Vinod Kumar, Characterization of rotatoryhydrodynamic Triply Diffusive convection, Z. Angew. Math. Phys (ZAMP), (Springer, Germany), 66 (2015), 2665–2675.
  • 56. Jyoti Prakash, Rajeev Kumar and Kultaran Kumari , Linear Triply Diffusive Convection with viscosity variations, Int. J. Phys. Math. Sci.  5(1) (2015), 186-196.
  • 57. Jyoti Prakash, Kanu Vaid, Shweta Manan and Rajeev Kumar, On Characterization Of    Triply Diffusive Convection,  Int. J.  Ext.  Res. 3, (2015) 87-92.
  • 58. Jyoti Prakash, Renu Bala and Virender Singh, An Energy Relationship in Magnetohydrodynamic Triply Diffusive Convection Problem, International Journal for Research in Applied Science & Engineering Technology (IJRASET),3, (2015),89-92.
  • 59. Jyoti Prakash and Kanu Vaid, Characterization of rotatory thermohaline instability in porous medium: Darcy Brinkman Model, Advances in Applied Science Research, 6(6) (2015), 153-158.
  • 60.  Jyoti Prakash, Shweta Manan and Virender Singh,  On the principle of the exchange of stabilities for the triply diffusive convection problem in completely confined fluids, Int. J. Math. Arch. 6(10), ( 2015), 177-181.
  • 61. Jyoti Prakash, Kanu Vaid and Renu Bala, On arresting the complex growth rates in Magnetohydrodynamic Triply Diffusive convection, Int. J. Fluid Mech. Res., 42(5), (2015), 391-403(Begell House, USA).
  • 62. Jyoti Prakash, Virender Singh, Rajeev Kumar and Kultaran Kumari, The onset of convection in a rotating multicomponent fluid layer, J. Theoretical and Appl. Mech., (Warsaw54(2), (2016), 477-488.
  • 63. Jyoti Prakash, Shweta Manan and Kaka Ram, On Exchange Principle in Rotatory Hydrodynamic Triply Diffusive Convection in Porous Medium: Darcy Model, H. P. U. Journal, 3(2), (2015), 53-60.
  • 64. Jyoti Prakash, Rajeev Kumar and Vinod Kumar, Upper Bounds for the Complex Growth Rate in Magnetohydrodynamic Triply Diffusive Convection with viscosity Variations, H. P. U. Journal, 3(2), (2015), 83-90.
  • 65. Jyoti Prakash, Kultaran Kumari, Kanu Vaid and Renu Bala, On Exchange Principle in Rotatory Hydrodynamic Triply diffusive Convection Analogous to Stern Type in Porous Medium, H. P. U. Journal, 3(2), (2015), 180-187.
  • 66. Jyoti Prakash, Virender Singh and Shweta Manan, A Sufficient Condition for the Validity of the Exchange Principle in Triply Diffusive Convection in Porous Medium, H. P. U. Journal, 3(2), (2015), 215-222.
  • 67. Jyoti Prakash and Rajeev Kumar, A characterization Theorem in Magnetohydrodynamic  Triply Diffusive Convection with viscosity Variations, International Journal of technology, 6(2), (2016), 81-86.
  • 68. Jyoti Prakash, Pankaj Kumar and Shweta Manan, An Energy Relationship in Multicomponent Convection  Problem, International Journal of technology, 6(2), (2016), 99-102.
  • 69. Jyoti Prakash, Virender Singh and Shweta Manan, On Rotatory Hydrodynamic Triply Diffusive Convection in Porous Medium, International Journal of technology, 6(2), (2016), 113-117.
  • 70. Jyoti Prakash, Shweta Manan and Virender Singh, Linear Stability Analysis in Multicomponent Convection, International Journal of technology, 6(2), (2016), 118-122.
  • 71. Jyoti Prakash, Kultaran Kumari and Vinod Kumar, On the onset of stationary convection in double-diffusive binary viscoelastic fluid saturated anisotropic porous layer, International Journal of technology 6(2), (2016), 223-226.
  • 72. Jyoti Prakash and Renu Bala, On arresting the complex growth rates in ferromagnetic convection with magnetic field dependent viscosity in a rotating sparsely distributed porous medium, J. Applied Mechanics and Technical Physics, (Springer, Moscow), 57( 4)(2016) 623–636.
  • 73. Jyoti Prakash, Rajeev Kumar and Pankaj Kumar, A characterization theorem in rotatory hydrodynamic triply diffusive convection with viscosity variations, J. Raj. Acad. Phys. Sci. 15(3), (2016), 139-148.
  • 74. Jyoti Prakash, Kultaran Kumari and Rajeev Kumar, On triply diffusive convection in a Maxwell fluid layer, Bull. Cal. Math. Soc., 108(5), (2016), 353-366. 
  • 75. Jyoti Prakash and Sanjay Kumar Gupta, On non-existence of oscillatory motions in magnetothermohaline convection in porous medium, J. Porous Media (Begell House, USA), 19(7), (2016), 567–581. 
  • 76. Jyoti Prakash, Kultaran Kumari and Rajeev Kumar, Triple diffusive convection in a Maxwell fluid saturated porous layer: Darcy Brinkman-Maxwell model, J. Porous Media, 108(5), 19(10), (2016), 871–883. 
  • 77. Jyoti Prakash, Rajeev Kumar and Prakash Chopra, On triply diffusive convection analogous to Stern type with variable viscosity, Research Journal of science and technology, 9(1), (2017), 111-114.
  • 78. Jyoti Prakash and Kultaran Kumari, On double-diffusive convection in a binary viscoelastic fluid saturated anisotropic porous layer, Research Journal of science and technology, 9(1), (2017), 123-126.
  • 79. Jyoti Prakash, Shweta Manan and Vinod Kumar, On triply diffusive convection in porous medium: Darcy Brinkman model, Research Journal of science and technology, 9(1), (2017), 127-130.
  • 80. Jyoti Prakash, Pankaj Kumar and Shweta Manan, On the occurrence of stationary convection in triply diffusive convection in porous medium: Darcy model, Research Journal of science and technology, 9(1), (2017), 131-134.
  • 81. Jyoti Prakash, Virender Singh and Shweta Manan, On the limitations of linear growth rates in triply diffusive convection in porous medium, J. Assoc. Arab Univ. Basic and Appl. Sc, 22, (2017), 91-97 (Taylor & Francis).
  • 82. Jyoti Prakash and Shweta Manan, On Rotatoryhydromagnetic multicomponent convection, Int. J. Appl. Sci. Eng. Res., 5(6), (2016), 405-420.
  • 83. Jyoti Prakash, Rajeev Kumar and Kusum Lata, The onset of convection in a multicomponent fluid layer in the presence of uniform magnetic field, J. Appl. Mech. Tech. Phys. (Moscow), (Springer), 58(1), (2017), 36-46. 
  • 84. Jyoti Prakash, Renu Bala, Kanu Vaid and Vinod Kumar, On Arresting the Complex Growth Rates in Rotatory Triply Diffusive Convection, Applications and Applied Mathematics- An International Journal (AAM) (USA), 11(2), (2016), 722-734.
  • 85. Jyoti Prakash, Shweta Manan, and Virender Singh, On Triply Diffusive Convection in Completely Confined Fluids, Thermal Science (Serbia)DOI :10.2298 (2016).
  • 86. Jyoti Prakash and Shweta Manan, A Sufficient Condition for the Exchange Principle in Multicomponent Convection Problem in Completely Confined Fluids, J. Raj. Acad.  Phys. Sc. 15(4), (2016), 245-253.
  • 87. Jyoti Prakash, Renu Bala and Kultaran Kumari, Upper bounds for the complex growth rates in ferromagnetic convection in a rotating porous medium: Darcy-Brinkman Model, Bull. Cal. Math. Soc., 109(2), (2017), 153-170.
  • 88. Jyoti Prakash and Rajeev Kumar, On Linear Stability Analysis of Magnetorotatory Triply Diffusive Convection with Viscosity Variations, International Journal of Mathematics and Statistics,18(3), (2017), 36-46.
  • 89. Jyoti Prakash, Rajeev Kumar and Kultaran Kumari, Thermal convection in a ferromagnetic fluid layer with magnetic field dependent viscosity: a correction applied, Studia Geotechnica et Mechanica (Poland39( 3), (2017),39-46.
  • 90. Jyoti Prakash, Pankaj Kumar, Kultaran Kumari and Shweta Manan, Ferromagnetic convection in a densly packed porous medium with magnetic field dependent viscosity revisited, Z. Naturforsch. A, (De Gruyter, Germany), 73 (3), 181-190 (2018). ISSN-1865-7109.
  • 91.  Jyoti Prakash, Pankaj Kumar, Shweta Manan and Vipan Sharma, An Energy Relationship in Magnetohydrodynamic multicomponent Convection Problem Analogous to Stern Type, Int. J. Math. Archive, 9(3), (2018), 82-85.
  • 92. Jyoti Prakash, Shweta Manan and Kaka Ram, On stationary convection in rotatory hydrodynamic triply diffusive convection in a densely packed porous medium, Int. J. Math. Archive, 9(4), (2018), 146-150.
  • 93. Jyoti Prakash, Shweta Manan and Pankaj Kumar, Ferromagnetic Convection in a Sparsely Distributed Porous Medium with Magnetic Field Dependent Viscosity Revisited, J. Porous Med. 21(8):749–762 (2018) (Begell House, USA).
  • 94. Jyoti Prakash, Kultaran Kumari, Vinod Kumar  and Vipan Sharma, On the Limitations of Complex Growth Rate in Triply Diffusive Convection in Porous Medium: Darcy-Brinkman model, Int. J. Math. And Appl., 6(2–B)(2018), 369–375.
  • ISSN: 2347-1557.
  • 95. Jyoti Prakash, Kultaran Kumari, Pankaj Kumar, Rajeev Kumar and Khem Raj Sharma, Ferromagnetic Convection in a Rotating Medium with Magnetic Field Dependent Viscosity. A Correction Applied, Technische Mechanik (Germany39 (2), (2019), 190 – 201. (ISSN-0232-3869,)
  • 96. Kaka Ram, Pankaj Kumar and Jyoti Prakash, Ferromagnetic Convection in the Presence of Dust Particles with Magnetic Field Dependent Viscosity – Revisited. J. Raj. Acad.  Phys. Sc., Vol.18, No.3&4, 2019, 201-214.
  • 97. Pankaj Kumar, Kaka Ram, Jitender Kumar, Vinod Kumar and Jyoti Prakash, On Triply Diffusive Convection in a Densely Packed Porous Medium: Darcy Model, Proc.  Int. Conf. on Maths in Space and Applied Sciences (ICMSAS-2019), Published by Knowledge and Research Publisher, Nagpur India (ISBN-978-81-942641-8-7) 44-50.
  • 98. Kaka Ram, Pankaj Kumar, Vinod Kumar and Jyoti Prakash, A Mathematical Theorem In Magnetohydrodynamic Triply Diffusive Convection In A Densely Packed Porous Medium, Proc.  Int. Conf. on Maths in Space and Applied Sciences (ICMSAS-2019), Published by Knowledge and Research Publisher, Nagpur India (ISBN-978-81-942641-8-7) 51-58.
  • 99. Renuka Rana, Kaka Ram, Virender Singh and Jyoti Prakash, On The Region Of Complex Growth Rates In Triply Diffusive Convection In Porous Medium, Int. Conf. on Maths in Space and Applied Sciences (ICMSAS-2019), Published by Knowledge and Research Publisher, Nagpur India (ISBN-978-81-942641-8-7) 134-141.
  • 100. Jyoti Prakash, Pankaj Kumar, Shweta Manan and Khem Raj Sharma, The Effect of Magnetic Field Dependent Viscosity on Ferromagnetic Convection in A Rotating Sparsely Distributed Porous Medium – Revisited.  International Journal of Applied Mechanics & Engineering (Poland) vol. 25(1)(2020), 142-158.  
  • 101. Jyoti Prakash, Kaka Ram and Khem Chand, On the Characterization of Triply Diffusive Convection in a Sparsely Distributed Porous Medium, J. Raj. Acad.  Phys. Sc., Vol.19, No.1&2, January-June, 2020, 109-118.
  • 102. Kaka Ram, Jitender Thakur, Pankaj Kumar and Jyoti Prakash, On the Complex Growth Rate of a Perturbation in Ferrothermohaline Convection with Magnetic Field Dependent Viscosity in a Densely Packed Porous Medium, Special Topics and Reviews in Porous Med., (Begell House)12(3) (2021) 89–104.
  • 103. Jyoti Prakash, Virender Singh, Chitresh Kumari and Khem Chand (2020): On arresting the complex growth rate of a perturbation in ferrothermosolutal convection in a porous medium: darcy model, Journal of Rajasthan Academy of Physical Sciences, ISSN: 0972-6306, Vol.19, No3&4, 153-166.
Last Updated:26-06-2021