Publication

 

1.     Name: Dr. Joginder Singh Dhiman

Designation: Professor

Department/Institute: Department of Mathematics & Statistics

Phone/ Mobile No: 09418110698

Email: jsdhiman66@gmail.com

LIST OF RESEARCH PUBLICATIONS

1. Joginder S. Dhiman, Some Characterization Theorems in Rotatory Magneto Thermohaline Convection, Proc. Indian Acad. Sci. (Math. Sci.), Vol. 105, No.4, (1995) 461-469. (Co published by  Indian Academy of Sciences &  Springer )

2. Joginder S.  Dhiman, Suppression of Banerjee-Gupta et al’s Instability in Hydromagnetics, Ganita, Vol. 47, No.1, (1996) 17-24.(Published by Bharat GanitaParishad, Lucknow )

3. Rajesh Sharma, Joginder S. Dhiman and Manjushri Pathnayak, On Reducing Banerjee-Shandil Semi-Circle, Ganita, Vol. 50, No.1, (1999) 5- 8.(Published by  Bharat GanitaParishad, Lucknow )

4. Joginder S. Dhiman, Suppression of Instability in Rotatory Hydromagnetic Convection, Proc. Indian Acad. Sci.(Math. Sci.)  Vol. 110, No.3, (2000), 335-345.(Co published by Indian Academy of Sciences &  Springer )

5. Joginder S.  Dhiman, On Rotatory Hydromagnetic Thermohaline Convection, Ganita, 51(1),(June 2000), 59-68.(Published by  Bharat GanitaParishad, Lucknow )

6.J. R. Gupta and Joginder S. Dhiman, On Oscillatory Motions of Growing Amplitude in Rotatory Thermohaline Convection, Proc. International Conf. On Mathematical Modelling, Tata Mc-GrawHill, 2001, 146-149.

7.J. R. Gupta and Joginder S. Dhiman, On Arresting the Linear Growth Rate for the MHD Thermal Stability Problem in Completely Confined Fluids, J. Mathematical Anal. &Applns., (U.S.A.),(2001), 262, 221-228.(Published by Academic Press/Elsevier)

8.J. R. Gupta, Joginder S. Dhiman and Jayant Thakur, Thermohaline Convection of Veronis and Stern Types: Revisited, J. Mathematical Anal. & Applns., (U.S.A.), (2001), 264, 398-407.(Published by Academic Press/Elsevier)

9.J. R. Gupta, Joginder S. Dhiman and Jayant Thakur, On Hydromagnetic Double-Diffusive Convection, Ganita, (2001), 52(2), 179-188. (Published by  Bharat Ganita Parishad, Lucknow )

10.J. R. Gupta, Joginder S. Dhiman and M. G. Gorla, On the Magnetohydrodynamic Thermohaline Stability Problem in Completely Confined Fluids, J. Mathematical Anal. & Applns., (U.S.A.),2002, 276, 882-895.(Published  by Academic Press/Elsevier)

11.J. R. Gupta, Joginder S. Dhiman and Jayant Thakur,  Semi-Circle theorems for magnetorotatory double-diffusive convection (MRDDC) problems of Veronis and Stern types, Proc. National Academy of Sciences, INDIA, 74 (A), IV, 2004, 413-427.(Co-published by Indian Academy of Sciences and Springer)

12.Joginder S.  Dhiman and Rekha Dadwal, On the Effect of Non uniform Magnetic Field and Rotation on the Jeans’ Criterion, 2010, Proc. of Int.  Conf. on Engineering Innovations: A Fillip to Economic Development, 2010.

13.Joginder S.  Dhiman and Rekha Dadwal, On the Gravitational Instability of a Medium in Non-Uniform Rotation and Magnetic Field, Astrophysics and Space Science, 2010, 325,195-200.( Published by Springer)

14.Joginder S.  Dhiman, Praveen K. Sharma and Poonam Sharma, On the stationary convection of thermohaline problems of Veronis and Stern types, Applied Mathematics,  Nov. 2010, 1, 400-405.(Published by Scientific Research Publishing, USA)

15.Joginder S.  Dhimanand Rekha Dadwal, The Gravitational Instability of a Non-Uniform Rotating Heat Conducting Medium in the presence of Non-Uniform Magnetic Field,Astrophysics and Space Science, 2011,  332, 373-378.(Published by Springer)

16.Joginder S.  Dhiman, Tej Singh and M. G. Gorla, Three Dimensional Free Convective MHD Flow With Heat And Mass Transfer Through A Porous Medium With Variable Permeability, Bulletin of the Allahabad Mathematical Society, Vol. 26(1), 2011, 153-172.(Published by Allahabad Mathematical Society, Allahabad)

17.Joginder S. Dhiman, Praveen K. Sharma and Gurdeep Singh, Convective Stability Analysis of a Micropolar Fluid Layer by Variational Method, Theoretical and Applied Mechanics Letters, 1(4), (2011), 042004,1-6.(Co-published by Chinese Society of Theoretical and Applied Mechanics CSTAM and American Institute of Physics (AIP) )

18. Joginder S. Dhiman and Rekha Dadwal, Jeans Criterion Of Instability For A Homogeneous Heat Conducting Medium In The Presence Of Nonuniform Rotation And Magnetic Field, (2010), Recent Advances in Continuum Mechanics and Algebra, Chapter 2, pp. 10-17. (Published by Regal Pub. New Delhi )

19. R. G. Shandil,  Joginder S. Dhiman and Yadvinder Kumar,  On The Stability Analysis Of Modified Double-Diffusive Convection Problem With Cross Diffusion For Realistic Boundaries, (2010), Recent Advances in Continuum Mechanics and Algebra, Chapter 5, pp. 41-50.(Published by Regal Pub. New Delhi )

20.M. G. Gorla, Joginder S. Dhiman and Tej Singh, Unsteady Free Convective MHD Flow Through Porous Medium Between Two Parallel Vertical Porous Walls With Heat Sources, (2010), Recent Advances in Continuum Mechanics and Algebra, Chapter 6, pp. 51-62.(Published by Regal Pub. New Delhi )

21.Joginder S. Dhiman and Praveen K. Sharma, Bounds for the Frequency of Oscillations for the Rotatory Magnetohydrodynamic Thermohaline Stability Problem in Completely Confined Fluids, (2010), Recent Advances in Continuum Mechanics and Algebra, Chapter 9, pp. 83-96.(Published by Regal Pub. New Delhi )

22.Joginder S. Dhiman and Pushap Lata, On The Exchange Principle In Thermal Instability Of Couple-Stress Fluid In Porous Medium With Variable Gravity By Positive Operators, (2010), Recent Advances in Continuum Mechanics and Algebra, Chapter 10, pp. 97-107. (Published by Regal Pub. New Delhi )23Joginder S.  Dhiman and Vijay Kumar, 23.On -Law in Magnetoconvection Problem for General Nature of Boundaries Using Galerkin Method, Research J. Engineering and Technology, 3(2), (2012), 186-190.(Published by A & V Publications, Raipur)

24.  Joginder S.  Dhiman and Deepak Gupta, On the Stability Analysis of a Generalized Double-Diffusive Convection Problem, Research J. Engineering and Technology, 3(2), (2012), 191-195.(Published by A & V Publications, Raipur)

25. Joginder S.  Dhiman and Rekha Dadwal, On the Magnetoravitational Instability of a Ferromagnetic Dust Cloud in the Presence of Non-Uniform Rotation, ISRN Astronomy and Astrophysics, Vol. 2012, Article ID 104941, 2012.(Published by International Scholarly Research Network, Egypt)

26.Joginder S.  Dhiman and Pushap Lata, Positive Operator Method to Establish Principle of Exchange of Stabilities in Thermal Convection of a Viscoelastic Fluid, Int. Journal of Scientific and Engineering Research, Vol. 3(6), 2012.(Published by IJSER, USA)

27. Joginder S.  Dhiman and Rekha Dadwal, ON THE JEANS CRITERION OF A STRATIFIED HEAT CONDUCTING GASEOUS MEDIUM IN PRESENCE NON-UNIFORM ROTATION AND MAGNETIC FIELD, Journal of Astrophysics and Astronomy, 2012, 33(4), 363-373(Published by Indian Academy of Sciences& Springer)

28. Joginder S.  Dhiman and Praveen K. Sharma, On the Exact Solution for the Magnetohydrodynamic Thermal Stability Problem, Journal of the Calcutta Mathematical Society, 2013, 9(2), 101-110(Published by Calcutta Mathematical Society)

29. Joginder S.  Dhiman and Vijay Kumar, On the Effects of Magnetic Field and Temperature-Dependent Viscosity on the onset Magnetoconvection for General Boundary Conditions, Research J. Science and Technology, 5(1), (2013), 104-109.(Published by A & V Publications, Raipur)

30.Joginder S.  Dhiman and Nivedita Sharma, A Modified Analysis of the Onset of Convection in a Micropolar Liquid Layer Heated from Below Research J. Engineering and Technology, 5(1), (2013), 224-231.(Published by A & V Publications, Raipur)

31. Joginder S.  Dhiman and Vijay Kumar, On the Stability Analysis of Rayleigh-Bénard Convection with temperature dependent viscosity for General Boundary Conditions, Int.  Journal of Emerging Multidisciplinary Fluid Sciences, Vol. 3, No. 2&3(2011-12), 85-98,(Published by Multi-Science Publishing Co., UK)

32. Joginder S.  Dhiman and Vijay Kumar, On the Modulation of Oscillation in Thermohaline Convection Problems Using Temperature Dependent Viscosity, Journal of Theoretical and Applied Mechanics, 45(1), (2015), 39-52 (Published by Bulgarian Academy of Sciences (TAM) )

33. Joginder S. Dhiman  and Megh Raj Goyal,  Stability Analysis of Soret Driven Double-Diffusive Steady Convection for Rigid and Impervious Boundaries, International Journal of Applied Mathematics and Mechanics, Vol. 2 (1), (2013), 11-20.

34.Joginder S.  Dhiman and Nivedita Sharma, Effect of Temperature Dependent Viscosity on the Thermal Convection of Nanofluid layer: Steady Case, Journal of Thermophysics and Heat Transfer, (2015), Volume 29 (1), pp. 90-101.doi:http://arc.aiaa.org/doi/abs/10.2514/1.T4304

35.Joginder S. Dhiman and Rajni Sharma, On the Effect of Non-Uniform Magnetic Field on the Jeans Instability of a Viscoelastic Medium, Int. Journal of Technology (2014), 4(1), 7-14.

36. Joginder S.  Dhiman, Vijay Kumar and Som Krishan Sharma, On the Effect of Non-Uniform Temperature Gradient on the Stability of Modified Thermal Convection Problem, Int. Journal of Technology (2014), 4(1), 100-105.

37. Joginder S.  Dhiman and Nivedita Sharma, Onset of Triply Diffusive in a Fluid Layer with Suspended Particles and Temperature Dependent Viscosity, Int. Journal of Technology (2014), 4(1), 112-116.

38. Joginder S. Dhiman and Megh Raj Goyal, On The Effect of Rotation on the Soret Driven Double-Diffusive Stationary Convection, Advances in Applied Science Research, 2015, 6(9):27-37

39. Joginder S. Dhiman and Rajni Sharma, The Effect of Rotation on the Jeans Instability of a Magnetized Viscoelastic Medium, Physica Scripta, December 2014, 89(12), pp. 125001-125010(10).

40. Joginder S.  Dhiman and Nivedita Sharma, Rayleigh-Bénard convection with Temperature dependent viscosity in the presence of suspended Particles, Recent Trends in Algebra and Mechanics (Ed. Book, 2014), Indo-American Books, New Delhi, pp. 63-80.

41.Joginder S.  Dhiman and Rajni Sharma, Magnetogravitational Instability of a Heat Conducting Viscoelastic Fluid, Recent Trends in Algebra and Mechanics (Ed. Book, 2014), Indo-American Books, New Delhi, pp. 131-148.

42. Joginder S.  Dhiman and Praveen K. Sharma and Gurdeep Singh, On the Validation of Chandrasekhar’s Conjecture on -Law in Magnetoconvection using Variational Principle, Recent Trends in Algebra and Mechanics (Ed. Book), Indo-American Books, New Delhi, pp. 179-196.

43.Mihir B. Banerjee, J. R. Gupta, R. G. Shandil, Joginder S. Dhiman and Vinay Kanwar, On the behaviour of hot fluids in the presence of magnetic field, Research J. Science and Tech., April-June, 2015, pp. 55-103.

44. Joginder Singh Dhiman and Rajni Sharma: Gravitational Instability of Cylindrical Viscoelastic Medium Permeated with Non-Uniform Magnetic Field and Rotation, Journal of Astrophysics and Astronomy (Indian Acad. Sciences), (2016), 37:5.

45. Joginder Singh Dhiman, Praveen K. Sharma and Megh Raj Goyal Soret Driven Double Diffusive Convection in Horizontal Fluid Layer with Rigid and Impervious Boundaries, Submitted to Int. Journal of Non-linear Science (Manu No. 20150704-Dhiman)

46. Joginder Singh Dhiman, Praveen K. Sharma and Megh Raj Goyal, Soret Driven Double-Diffusive Steady Magnetoconvection with Rigid and Impervious Boundaries, Himachal Pradesh University Journal, Vol. 03, No.2, (2015), 72-82.

47Joginder Singh Dhiman, Praveen K. Sharma and Poonam Sharma, Dufour-Soret Driven Double-Diffusive Convection in Nonreactive Binary Fluids with Temperature Dependent Viscosity, Int. Journal of Technology, (2016); 6(2): 161-169.

48. Joginder Singh Dhiman and Rajni Sharma, Quantum Effects on the Magnetogravitational Instability of Viscoelastic Fluid through a Porous Medium, Int. Journal of Technology, (2016); 6(2): 199-205.

49. Joginder Singh Dhiman and Nivedita Sharma: Thermal Instability of a Hot Ferrofluid Layer with Temperature Dependent Viscosity, International Journal of Fluid Mechanics Research, Vol. 45(4), 2018, 389-398.

50.Joginder Singh Dhiman and Poonam Sharma, On the Bounds for Oscillations in Double-Diffusive Convection with Cross-Diffusions Effects and Variable Viscosity, Himachal Pradesh University Journal, Vol. 03, No.2, (2015), 167-179.

51. Joginder Singh Dhiman and Rajni Sharma, Jeans Instability of the Self Gravitating Viscoelastic Ferromagnetic Cylinder with Axial Nonuniform Rotation and Magnetic Field, Journal of Astrophysics and Astronomy (Indian Acad. Sciences), (2017), 38:4.

52. Joginder Singh Dhiman and Rajni Sharma, Effect of finite Larmor Radius and Suspended Particles on the Magnetogravitational Instability of a Visco Elastic Medium, Himachal Pradesh University Journal, Vol. 03, No.2, (2015), 247-259.

53. Joginder S.  Dhiman and Nivedita Sharma, Thermal Instability of a Micropolar fluid Layer with Temperature Dependent Viscosity”, Proceedings of the National Academy of Sciences, India Section A: Physical Sciences.

54.Joginder Singh Dhiman and Nivedita Sharma, On the Oscillatory Convective Instability in Nanofluid Fluid Layer with Temperature Dependent Viscosity, Journal of Physics: Conference Series (2019), 1294012026

55.Joginder Singh Dhiman and Gurdeep Singh, Stability Analysis of a Magneto Micropolar Fluid Layer by Variational Principle, American Journal of Applied Mathematics and Statistics, Vol. 9 No. 7 (2019), 86-92.

56. Joginder Singh Dhiman and Sumixal Sood, Stability Analysis of Thermohaline Convection Problem in a Rotating Viscoelastic Fluid Layer, Proc. of International Conference on Mathematics in Space and Applied Sciences (2019), pp. 59-69

57.Joginder Singh Dhiman and Poonam Sharma, On the Bounds for Oscillations in Double Diffusive Convection with Cross-Diffusions Effects in porous medium: Darcy Model, Proc. of International Conference on Mathematics in Space and Applied Sciences (2019), pp. 95-104

58. Joginder Singh Dhiman and Mehak Mahajan, Gravitational instability in viscoelastic medium with dissipative effects, Proc. of International Conference on Mathematics in Space and Applied Sciences (2019), pp. 112-116.

59. Rajni Sharma, Sumit Bhardwaj and Joginder Singh Dhiman, Effects of Dust Temperature and Radiative Heat-Loss Functions on the Magnetogravitational Instability of Viscoelastic Dusty Plasma, Astrophysics and Space Science (2020), Vol. 365 No. 6.  (article no. 106)

60. Joginder Singh Dhiman and Nivedita Sharma (2020), Thermal Instability of a Micropolar fluid Layer with Temperature Dependent Viscosity”, Proceedings of the National Academy of Sciences, India Section A: Physical Sciences, 90(3), 421-428.DOI: 10.1007/s40010-018-0591-6

61. Joginder Singh Dhiman and Praveen K. Sharma (2021), Effects of Temperature Dependent Viscosity and Magnetic Field on the Oscillations in Triply Diffusive Convection, IOSR Journal of Applied Physics (IOSR-JAP) Volume 13, Issue 1 Ser. I (Jan. – Feb. 2021), PP 49-54

62. Joginder Singh Dhiman and Nivedita Sharma (2021), Effect of Temperature Dependent Viscosity on Thermal Convection in Ferrofluid Layer, Journal of Theoretical and Applied Mechanics, Sofia, Vol. 51 (2021) pp. 3-21

63. Joginder Singh Dhiman* and Sumixal Sood, Linear and Weakly Non-linear Modified Stability Analysis of Thermohaline Convection under Gravity Modulation, HPU journal of Physical Sciences (2021), Accepted for publication.

64. Joginder Singh Dhiman, Praveen K. Sharma and Megh Raj Goyal Stability Analysis of Soret Driven Double Diffusive Convection with Rigid and Impervious Boundaries, HPU journal of Physical Sciences (2021), Accepted for publication.

65. Joginder Singh Dhiman and Sumixal Sood,  Linear and Weakly Non-linear Stability Analysis of Oscillatory Convection in Rotating Ferrofluid Layer, Applied Mathematics and Computation (Oct. 2022), Vol. 430, 1, 127239, https://doi.org/10.1016/j.amc.2022.127239.

66.Joginder Singh Dhiman and Sumixal Sood, Modified Stability Analysis of Double-Diffusive Convection in Viscoelastic Fluid Layer Saturating Porous Media, Submitted to Heat Transfer (Wiley) (2022), 1-32, DOI: 10.1002/htj.22752

67. Joginder Singh Dhiman and Mehak Mahajan, On the Jeans Instability in Strongly Coupled Clumpy Molecular Cloud with Dissipative effects, Journal of Astrophysics and Astronomy (Accepted for publication on 24/10/2022).

2.     Name: Dr. Rajesh Kumar Sharma

Designation: Professor

Department/Institute: Department of Mathematics & Statistics

Phone/ Mobile No: 9459193341

Email: rajesh_hpu_math@yahoo.co.in

LIST OF RESEARCH PUBLICATIONS

  1. R. Sharma and M. Pal, Regular Polygons and Central Moments, Amer. Math. Monthly, (2022), USA, doi.org/10.1080/00029890.2022.2115789.

  2. R. Bhatia and R. Sharma, Extensions of Schur majorisation inequalities, Linear Algebra Appl., 651, 385-389, 2022, USA.

  3. R. Sharma and M. Pal, Note on bounds for eigenvalues using traces, Oper. Matrices, 3, 16, 2022, Croatia.

  4. R. Sharma and M. Pal, Positive linear maps and spreads of normal matrices, Electron J. Linear Algebra, 38, 347-356, 2022, USA.

  5. R. Sharma, A. Sharma and R. Saini, “A note on variance bounds and location of eigenvalues” Journal Of Mathematical Inequalities, Volume 15, Number 1 (2021),67-80, Croatia.

  6. R. Sharma, R. Kumar, R. Saini and P. Devi, Inequalities for central moments and spread of matrices, Annals of Functional Analysis, 2020, Iran.

  7. R. Kumar, R. Sharma, Some inequalities involving positive linear maps under certain conditions, Operator and Matrices, 13, 3, 843-854, 2019, Croatia .

  8. R. Sharma, A. Sharma, R. Saini, G. Kapoor, Means Moments and Newton’s Inequalities, Rocky Mountain J. Math. 49, 5, 1667-1677, 2019, USA.

  9. R.Sharma, R. Kumar, R. Saini, G. Kapoor, Bounds on Spreads of Matrices Related to Fourth Central Moment, Bull. Malays. Sci. Soc. 41, 175-190, 2018, Malaysia.

  10. R. Sharma, P. Devi, R. Kumari, A note on inequalities for Positive linear maps, Linear Algebra and Applications, 528, 62-75, 2017, USA.

  11. R. Sharma, R. Kumari, Positive linear maps and perturbation bounds of matrices, Linear Algebra and Applications, 528,62-75, 2017, USA.

  12. R. Sharma and R. Bhandari, Remark on variance bounds, J. of Combinatorics, Information & System Sciences, 41, 203-206, 2016, INDIA.

  13. R. Sharma and R. Saini, An identity involving fourth central moment, The Mathematical Scientist, 41, 136-137, 2016, UK.

  14. R. Sharma and R. Saini,On bounds for fourth central moment, J. of Combinatorics, Information & System Sciences, 41, 57-64, 2016, INDIA.

  15. R. Sharma and R. Bhandari, Skewness, kurtosisandNewton’sinequality, Rocky Mountain Math. J.,45,1639-1643, 2015, USA.

  16. R. Sharma and R. Kumar, Positive linear functional and Gersgorin disks of matrices, J. of Combinatorics, Information & System Sciences, 39, 13-19, 2014, INDIA.

  17. R. Bhatia and R. Sharma, Positive linear maps and spread of matrices-II, Linear Algebra and Applications, 436, 1562–1571, 2015, USA.

  18. R. Sharma, R.Kumar and S. Garge, On inequalities involving eigenvalues and traces of Hermitian matrices, Annals of Functional Analysis, 6, 78-90, 2015, Iran.

  19. R. Sharma and R. Saini, Generalisation of Samuelson’ inequality and location of eigenvalues, Proc. Indian Acad. Sci. (Math. Sci.), 125, 103-111, 2015, INDIA.

  20. R. Bhatia and R. Sharma, Positive linear maps and spread of matrices, Amer. Math. Monthly., 121, 619-624, 2014, USA.

  21. R. Sharma and R. Bhandari, On variance upper bounds for unimodal dis-tributions, Communications in Statistics-Theory and Methods, 43, 4503-4513, 2014, UK.

  22. R. Sharma and R. Bhandari, On bounds for moments of unimodal dis-tributions, Communications for Statistical Applications and Methods, 21, 201-212 ,2014, Korea.

  23. R. Sharma and A. Thakur, A refinement of the gruss inequality for pos-itive linear functionals, J. of Combinatorics, Information & System Sci-ences, 38, 203-217, 2013, INDIA.

  24. R. Sharma and R. Kumar, Remark on upper bounds for the spread of a matrix, Linear Algebra and Applications, 438 , 4359-4362, 2013, USA.

  25. R. Sharma and A. Thakur, More inequalities for positive linear maps, Journal of Mathematical Inequalities, 7(1), 1-9, 2013, Croatia.

  26. R. Sharma, R. Bhandari and M. Gupta, Inequalities related to the Cauchy-Schwarz inequality, Sankhya: The Indian Journal of Statistics, Series A, 74-A(1), 101-111, 2012, India.

  27. R. Bhatia and R. Sharma, Some more inequalities for positive linear maps, Linear Algebra and Applications, 436, 1562–1571, 2012, USA.

  28. P.L. Sharma, R. Sharma and A. Thakur, A note on inequalities involving moments of a discrete random variable, International J. of Math. Sci. & Engg. Appls., 6(2): 133-143,2012, India.

  29. R. Sharma and P.L. Sharma, On optimization problems and inequalities involving three moments. Int. J. of Mathematical Sciences and Applica-tions, 2(1):245-249, 2012, India.

  30. R. Sharma and P.L. Sharma, Some optimization problems involving mo-ments of discrete random variables, International Journal of Theoretical and Applied Science, 3(2): 88-90, 2011, India.

  31. R. Sharma and P.L. Sharma, Some optimization problems related with inequalities between the moments, Bulletin of pure and applied sciences, 30(1):135-144, 2011, India.

  32. R. Sharma and A. Thakur, On Inequalities involving first three moments, International Journal of Mathematics and Scientific Computing, 1(1): 43-47, 2011, India.

  33. R. Sharma and A. Thakur, Inequalities related to variance of complex numbers, Journal of inequalities and special functions, 2(1):8-15, 2011, Kosovo.

  34. R. Sharma, On Jensen’s inequality for positive linear functionals, International J. of Math. Sci. & Engg. Appls.,5(5): 263-271, 2011, India.

  35. R. Sharma, R.G. Shandil and G. Kapoor, A note on Karl Pearson’s Co-efficient of Dispersion, Journal of H.P. University, 1(1): 147-149, 2011, India.

  36. R. Sharma, R. Bhandari and A. Thakur, Some bounds for integrals with re…nements of the gruss inequality, Indian journal of pure and applied mathematics, 42(3): 187-202, 2011, India.

  37. R. Sharma A. Thakur and R. Bhandari, On covariance bounds related to discrete gruss type inequalities, International J. of Math. Sci. & Engg. Appls., 5(2): 287–301,2011, India.

  38. R. Sharma and R. Bhandari, On inequalities involving positive definite matrices and its extreme eigenvalues,Recent advances in continuum mechanics & algebra. Regal publication-New-Delhi, 2011, India.

  39. R. Sharma and M. Gupta,On some inequalities involving harmonic mean and moments, Recent advances in continum mechanics & algebra. Regal publication-New-Delhi, 2011, India

  40. R. Sharma and P.L. Sharma, A note on inequalities between the moments, International Journal of theoretical and applied sciences, 2(2): 30-33, 2010, India.

  41. R. Sharma and R. Bhandari, On Some Kantorovich Type Inequalities and their Applications, Journal of Combinatorics, Information & System Sci-ences, 35(3-4): 459-470, 2010, India.

  42. R. Sharma and M. Gupta, Stress strain distribution and elastic moduli: multiphase composite bodies, International J. of Math. Sci. & Engg. Ap-pls., 4(4): 405-411, 2010, India.

  43. R. Sharma, G. Kapoor and M. Gupta, Some better bounds on the vari-ance with applications, Journal of Mathematical inequalities, 4(3), 355-363, 2010, Croatia.

  44. R. Sharma, S. Devi, G. Kapoor, S. Ram and N.S. Barnett, A brief note on some bounds connecting lower order moments for random variables defined on a finite interval, International Journal of theoretical and applied sciences, 1(2): 83-85, 2009, India.

  45. R. Sharma, S. Ram and S. Devi, Some inequalities for the ratio and di¤ er-ence of moments, International journal of theoretical and applied sciences, 1(1): 103-110, 2009, India.

  46. R. Sharma, A. Kaura, M. Gupta and S. Ram, Some bounds on sample parameters with re…nements of Samuelson and Brunk inequalities, Journal of mathematical inequalities, 3(1): 99-106, 2009, Croatia.

  47. R. Sharma, R.G. Shandil, G. Kapoor, S. Devi and N.S. Barnett, Some bounds on the sample variance in terms of the mean and extreme values, Advances in inequalities from probability theory and statistics, Edited by N.S.Barnett and S.S. Dragomir and published by “Nova Publication”, (2008), Australia.

  48. R. Sharma, Some More Inequalities for Arithmetic Mean, Harmonic Mean and Variance, Journal of Mathematical Inequalities, 2(1): 109-114, 2008, Croatia.

  49. R. Sharma, S. Ranta and A. Ranjan, On Inverse Mixture Rule of Multi-phase Composite Bodies, Journal of Reinforced Plastics and Composites, 24(7): 2005, USA.

  50. R. Sharma, R.G. Shandil, S. Devi, and M. Dutta, Some Inequalities be-tween Moments of Probability Distributions, Journal of Inequalities in Pure and Applied Mathematics, 5(4): 1-12, 2004, Australia.

  51. R. Sharma and S. Ranta, On Simplified Composite Micromechanics Equa-tion and Mixture Rule, Journal of Reinforced Plastics and Composites, 23(14): 1465-1472, 2004, USA.

  52. R. Sharma, S. Ranta and A. Ranjan, Bounds on Elastic Modulus of a Mul-tiphase Composite Bodies, Journal of Reinforced Plastics and Composites, 23(3): 317-325, 2004, USA.

  53. R. Sharma and A. Ranjan, Bounds on Longitudinal and Transverse Mod-ulus of a Multiphase Composite: Journal of Reinforced Plastics and Com-posites, 22(11): 1017-1027, 2003, USA.

  54. R. Sharma and A. Ranjan, Bounds on Transverse Modulus of a Multiphase Composite, Journal of Reinforced Plastics and Composites, 21(16): 1467-1476, 2002, USA.

  55. R. Sharma and A. Ranjan, Elastic Properties of Reinforced Solid: Analo-gus of Mohr Circle Diagram-II, Journal of Reinforced Plastics and Com-posites, 21(14): 1319-1336, 2002, USA.

  56. R. Sharma and A. Ranjan, Elastic Properties of Reinforced Solids: Ana-logus of Mohr Circle Diagram, Journal of Reinforced Plastics and Com-posites, 19(14): 1147-1158, 2000, USA.

  57. R. Sharma, J.S. Dhiman and M.S. Pattanayak, On Reducing Banerjee-Shandil Semi-Circle, Ganita, Vol. 50(1): 5-8, 1999, India.

  58. R. Sharma and K.S.Parihar, Young’s Modulus and Poisson’s Ratio of An n-Phase Composite Body Reinforced with Inclined Inclusions, Journal of Reinforced Plastics and Composites, , 16 (2): 167-181, 1997, USA.

  59. R. Sharma, Distribution of Body Stresses in an n-Phase Composite Body:Prior to Outside Loading, Journal of Reinforced Plastics and Composites, 14( 12): 1307-1316, 1995, USA.

  60. B.B.Sharma and R. Sharma, Elastic Constants for a two phase Isotropic Composite, Journal of Reinforced Plastics and Composites, Vol. 14(11): 1144-1149, 1995, USA.

  61. R. Sharma and Anupam Sharma, Young’s modulus of A Composite: Rein-forced with (n-1) Di¤ erent Inclusions, Journal of Reinforced Plastics and Composites, 12(6): 670-676, 1993, USA.

  62. B.B.Sharma and R. Sharma, Young’s modulus of Reinforced Compos-ite, Advanced Composite Materials, 2(4): 277-288, 1992, Japan.

  63. B.B. Sharma, R. Sharma and Rajinder Gupta, Continuum Damage Me-chanics and Heterogeneity of Reinforced Composites, Journal of Reinforced Plastics and Composites, 11(10): 1103-1110, 1992, USA.

  64. B.B. Sharma, R. Sharma and Rajinder Gupta, On the Rupture Properties of Reinforced Solids, Journal of Reinforced Plastics and Composites, 2(1): 1-6, 1992, Japan.

  65. B.B. Sharma and R. Sharma, A Study on the Elastic Properties of Rein-forced Solids, Journal of Reinforced Plastics and Composites, 11(9): 860-967, 1992, USA.

  66. B.B. Sharma, R. Sharma and Rajinder Gupta, A Statistical Study on the Rupture of Composite Materials, Acta Ciencia India, 17(3): 433-442, 1991, India.

  67. B.B. Sharma, R. Sharma and Rajinder Gupta, Conditions on the time of Rupture of Reinforced Materials, Acta Ciencia India, 17(3): 440-456, 1991, India.

  68. B.B. Sharma, R. Sharma and Rajinder Gupta, A Study on Rupture and Economy of Composite Material, Advanced Composite Materials, 1(3): 169-179, 1991, Japan.

  69. B.B. Sharma, R. Sharma and Rajinder Gupta, A Study on the Damage of Reinforced Material, Journal of Reinforced Plastics and Composites, 10(6): 585-593, November, 1991, USA.

  70. B.B. Sharma, R. Sharma and Rajinder Gupta, A Condition on the time of Rupture of Reinforced Materials, Journal of Reinforced Plastics and Composites, 9(4): 362-368, 1990, USA.

3.         Name: Dr. Khem Chand

Designation: Professor

Department/Institute: Department of Mathematics & Statistics

Phone/ Mobile No: 09418009710

Email: khemthakur99@gmail.com,   khem_66@yahoo.in

LIST OF RESEARCH PUBLICATIONS

  1. K.D. Singh, Khem Chand and S.K. Rana (1993), “Heat transfer in three-dimensional MHD flow past a porous plate”. Indian J. pure appl. Math., 24(5), 327-335. (Springer)
  2. K.D. Singh, Khem Chand and G. N. Verma (1995) “Heat transfer in a three-dimensional flow through a porous medium with periodic permeability”, ZAMM, 75 (12) 950-952, (John Wiley & Sons)
  3. K.D. Singh, Rakesh Sharma and Khem Chand. (2000), “Three-dimensional fluctuating flow and heat transfer through a porous medium with variable permeability”, ZAMM   80 (7) 473-480. (John Wiley & Sons)
  4. K.D. Singh and Khem Chand (2000), “Unsteady free convective MHD flow past a vertical porous plate with variable temperature”. Proc. Nat. Acad. Sci. India 70 (A),1, 49-58. (Springer)
  5. Rakesh Kumar and Khem Chand (2011), “Effect of slip conditions and hall current on unsteady MHD flow of a viscoelastic fluid past an infinite vertical porous plate through porous medium”. International Journal of Engineering Science and Technology, Vol-3 No-4   3124-3133. 
  6. Khem Chand (2011).“Heat transfer in three dimensional MHD boundary layer flow over a continuous porous surface moving in a parallel free stream”, International Journal of Engineering Science and Technology Vol.  3 No 7, 6058-6063.
  7. Khem Chand  and Rakesh Kumar (2011),  “Soret and Hall current Effects on Heat and Mass Transfer in MHD Flow of Viscoelastic Fluid past a Porous Plate in Rotating Porous Medium and Slip Flow Regime”, Journal of Rajasthan Academy of Physical Sciences, vol.-10 No-4, 357-371. 
  8. K.D. Singh, Khem Chand  and Shavnam Sharma (2012), “Heat and mass transfer in an   unsteady MHD convective flow through a porous medium bounded by vertical porous channel in the presence of radiative heat and hall current”, International Journal of Mathematical Sciences and Engineering Applications, Vol.6, No. I, 317-336.
  9. Khem Chand, Rakesh Kumar and Shavnam Sharma (2012), “Combined effects of slip and jump boundary conditions on oscillatory MHD flow of viscoelastic fluid considering soret effect”, International journal of Physical and Mathematical Sciences,vol-3, No-1, 37-44.
  10. Khem Chand and Rakesh Kumar (2012),“Hall effect on heat and mass transfer in the flow of oscillating viscoelastic fluid through porous medium with wall slip conditions. Indian journal of pure and applied Physics, Vol-50 pp-149-155. (NISCAIR)
  11. Khem Chand, Rakesh Kumar and Shavnam Sharma (2012), Hydromagnetic oscillatory vertical Couette flow of radiating fluid through porous medium with slip and jump conditions”, International journal of Physical and Mathematical Sciences, Vol-3, No-1, 82-90. 
  12. K.D. Singh, Khem Chand and Shavnam Sharma (2012),“Hydromagnetic oscillatory flow of dusty fluid in a rotating porous channel”, Int. journal of Mathematical Archive ,3(6), 2331-2339.
  13. Khem Chand, Rakesh Kumar and Shavnam Sharma (2012), “Hydromagnetic oscillatory flow through a porous medium bounded by two vertical porous plates with heat source and soret effect”, Advances in Applied sciences and researches, 3(4) 2169-2178.
  14. Khem Chand, K.D. Singh and Sanjeev Kumar (2012) Hall effect on radiating and chemically reacting MHD oscillatory flow in a rotating porous vertical channel in slip flow regime”,  Advances in Applied sciences and researches, 3(4) 2424-2437. 
  15. Khem Chand and Shavnam Sharma (2012),”Hydromagnetic oscillatory flow through a porous channel in the presence of hall current with variable suction and permeability”, International Journal of Statistika and Mathematika, Vol. 3(1), 70-76. (Statperson Publication Corporation)
  16. Khem Chand and Sapna (2012), “Hydromagnetic free convective oscillatory Couette flow through a porous vertical channel with periodic wall temperature”, Int.  Journal of Mathematical Archive, 3(9, 3484-3491.
  17. Khem Chand, K. D. Singh and Sanjeev Kumar (2013) “Hydromagnetic periodic flow through a porous medium in a circular pipe with slip flow condition”, International journal of Physical and Mathematical Sciences, Vol-4, No-1, 01-08.
  18. Khem Chand, K.D. Singh, and Shavnam Sharma (2013), “Combined Effect of Chemical Reaction and Radiation on Heat and Mass Transfer in Oscillatory MHD Flow of Viscoelastic Fluid through Vertical Channel”, Research Journal of Science and Technology, 5 (1); 77-84.
  19. Khem Chand, K.D. Singh, and Sanjeev Kumar (2013),“Hydromagnetic periodic flow in a circular pipe through porous medium with heat  transfer in slip flow regime”,  Research Journal of Science and Technology, 5(1); 148-152.
  20. Khem Chand, Dinesh Kumar and Sanjeev Kumar (2013), “MHD flow of radiating and chemically reacting viscoelastic fluid through a porous medium in porous vertical channel with constant suction”, International Journal of Engineering Science Invention, Volume 2(4) , 1-7.
  21. Khem Chand, Rakesh Kumar, Yogita Bala and Sanjeev Kumar (2013) “Combined effects of Hall current and rotation on free convection MHD flow in a porous channel in slip flow regime”, Proceeding of National Conference on Advances in Mathematics & its Application (AMA-2013), Excellent Publishing House-Delhi,108-115.
  22. Khem Chand, K.D. Singh, and Shavnam Sharma (2013),“Effect of slip and jump boundary conditions on chemically reacting and radiating MHD free convective flow of viscoelastic fluid through a porous medium in porous vertical channel”, Proceeding of National Conference on Advances in Mathematics & its Application (AMA-2013), Excellent Publishing House-Delhi 116-123.
  23. Khem Chand, Rakesh Kumar and Shavnam Sharma (2013), “Rarefaction and Darcy effects on the Hydromagnetic flow of radiating and reacting fluid in a vertical channel”, Turkish journal of engineering and environmental sciences, Vol. 37, Issue 2, 137-145. (Published by the Scientific and Technological Research Council of Turkey)
  24. Khem Chand, K.D. Singh, and Sanjeev Kumar, “Oscillatory Free convective Flow of Viscoelastic fluid through Porous Medium in a Rotating Vertical Channel”, Proceedings of the National Academy of Sciences, India Section A: Physical Sciences, December 2013, Volume 83, Issue 4 Deion: External link  , pp 333-342 (Springer)
  25. Khem Chand, K.D. Singh, and Shavnam Sharma (2013), “Effect of rotation and Hall current on heat transfer in MHD flow of oscillating dusty fluid in a porous channel”, Indian Journal of Pure and Applied Physics, Vol. 51, 669-682.  (NISCAIR)
  26. Khem Chand and Sanjeev Kumar (2013), “Hall effect on chemically reacting and radiating MHD oscillatory viscoelastic flow through porous vertical channel”.  Journal of Rajasthan Academy of Physical Sciences, Vol. 12, No 3, Sep.  pp 277-300.
  27. Khem Chand and Sanjeev Kumar, (2013), “Effect of Hall current and rotation on chemically reacting and radiating MHD oscillatory dusty viscoelastic flow through porous vertical channel”, International Journal of Applied Mathematics and Computation, 5(3) 17–32.
  28. Khem Chand, K.D. Singh and Bharti Sharma (2013) “Effects of heat and mass transfer on MHD unsteady convective flow along a vertical porous flat surface with constant suction and heat source”, Bull. Cal. Math. Soc. 105 (6) 411-428.                                       
  29. Khem Chand, Rakesh Kumar and Sanjeev Kumar (2014) “Heat and mass transfer in radiating and chemically reacting MHD oscillating flow of viscoelastic fluid in vertical channel in slip flow regime”, International Journal of Technology, Vol.04 (1), pp 128-133.
  30. Khem Chand,  K .D. Singh and Dinesh Kumar (2014) “On heat and mass transfer in chemically reacting and radiating viscoelastic MHD flow through porous medium in a vertical channel” International Journal of Technology,Vol.04 (1), pp 227--233.
  31. M. G. Gorla, Khem Chand and Asha Singh (2014) “Effect of rotation on free convective flow on vertically heated plate with gravity modulation in slip flow region” International Journal of Technology, Vol.04 (1), pp 20-26.
  32. Aarti Maglesh, M. G. Gorla and Khem Chand (2014)“Soret and Hall Effect on Heat and Mass Transfer in MHD Free Convective Flow through a Porous Medium in a Vertical Porous Channel”, Proceedings of the National Academy of Sciences, India Section A: Physical Sciences, Volume 84, Issue 1 Deion: External link  , pp 63-69. (Springer)
  33. K. D. Singh, Khem Chand and Shavnam Sharma (2014), “Hydrodynamic oscillatory flow of dusty fluid in a rotating porous vertical channel”, Indian Journal of Pure and Applied Mathematics, Pp 819-835. (Springer)
  34. Khem Chand, K .D. Singh and Bharti Sharma (2014), “Effects of heat and mass transfer on MHD unsteady convective flow along a vertical porous flat surface with constant suction and heat source” Allahabad Mathematical Society, Vol. 29 part 2, pp 195-215.
  35. Khem Chand, Rakesh Kumar and Sanjeev Kumar (2015) “Heat transfer in oscillating hydromagnetic channel flow with arbitrary conducting walls “Turkish journal of engineering and environmental sciences” Vol 38 (2) pp 256-265. (Published by the Scientific and Technological Research Council of Turkey)
  36. Khem Chand, and Bharti Sharma (2015), “Radiating flow with induced magnetic field over a vertical porous plate in the presence of heat source”, Research journal of Engineering and Technology, Vol. 06 part01, pp 41-46.
  37. M G Gorla, Khem Chand and Asha Singh (2015), “Combined effects of heat radiation and rotation on free convective flow on vertically upwards heated plate with gravity modulation in slip flow region”, Research journal of Engineering and Technology, Vol. 06 part01, pp 95-101.
  38. K D Singh, Khem Chand and Sapna (2015), “An exact solution of unsteady free convective MHD flow past a hot vertical porous plate with variable temperature in slip flow regime”, Research journal of Engineering and Technology, Vol. 06 part01, pp 102-109.
  39. Khem Chand and Nidhi Thakur (2015), “Effects of heat and mass transfer on MHD flow past a moving porous plate through porous medium with viscous dissipation”, Research journal of Engineering and Technology, Vol. 06 part1, pp 113-118.
  40. Khem Chand, Rakesh Kumar and Sapna (2015) “An exact solution of span wise fluctuating MHD free convective heat and mass transfer flow past a vertical porous plate with heat source and Soret effect in slip flow regime”, Journal of Chemical, Biological and Physical Sciences, Vol5 (3), 2902-2911.
  41. M G Gorla, Khem Chand and Asha Singh (2015), “Effects of Rotation and Heat Source on MHD Free Convective Flow on Vertically Upwards Heated Plate with Gravity Modulation in Slip Flow Region” Proceedings of the National Academy of Sciences, India Section A: Physical Sciences, 85(3), 427-437. (Springer)
  42. Khem Chand, K.D. Singh and Bharti Sharma (2015),  “An analytic solution of free convective MHD flow of radiating and reacting fluid past an infinite vertical plate with constant suction” Ganita, vol-64, 43-56.
  43. Khem Chand and Nidhi Thakur (2015), “Effect of porosity, Hall current and radiation on hydromagnetic flow past a heated moving vertical plate: An analysis by using Laplace Transform Technique,” Himachal Pradesh University Journal, 3(2), 133-145.
  44. Bharti Sharma and Khem Chand (2016), “Variable permeability and Soret effect on MHD radiative and reacting flow of viscoelastic fluid past an infinite porous plate in slip flow regime,” Himachal Pradesh University Journal, 3(2),  204-214.
  45. Madan Gopal Gorla, Khem Chand and Asha Singh (2016),  “ Unsteady heat and mass transfer in MHD viscoelastic fluid flow through porous medium between two inclined porous plates with soret effect and g-jitter force,” Journal of the Indian Math. Soc. 83(3-4), 289-312.
  46. Khem Chand and Bharti Sharma (2016), “Viscoelastic MHD free convective flow past a vertical porous plate through porous medium in the presence of rotation and radiation in slip flow regime,” Bull.Cal. Math. Soc. 108 (3), 169-184.
  47. Sapna and Khem Chand (2016), “Hall effect on the MHD flow in a rotating channel through porous medium in the presence of an inclined magnetic field,” Journal of Rajasthan Academy of Physical Sciences. 15 (1&2), 19-30.
  48. Bharti Sharma and Khem Chand (2016) “Radiating and dissipative flow with induced magnetic field over a porous vertical plate,” International journal of Technology. 06 (2), 93-98(ISSN-2231-3915)
  49. Khem Chand and Nidhi Thakur (2016) “Hydromagnetic flow of dusty viscoelastic (Walter liquid model-B) fluid past a plate with chemical reaction and Soret effect,” International journal of Technology. 06 (2), 107-112 (ISSN-2231-3915)
  50. K D Singh, Khem Chand and Sapna (2016) “Injection/suction effect on MHD convective flow through porous medium filled in vertical porous channel with heat radiation and Chemical reaction,” International journal of Technology. 06 (2), 215-222  (ISSN-2231-3915)
  51. Khem Chand and Nidhi Thakur (2016) “Span wise fluctuating hydromagnetic free convective heat and mass transfer flow past a hot vertical porous plate with thermal radiation and viscous dissipation in slip flow regime” Journal of Rajasthan Academy of Physical Sciences. 15 (4), 267-281.
  52. Khem Chand and Sapna (2017) “An analytical solution of Hydromagnetic natural convective flow of radiative and reacting fluid past a vertical plate with ramped wall temperature and concentration in the presence of an inclined magnetic field through porous medium by using Laplace transform technique”.
  53. Khem Chand and Nidhi Thakur (2018) “Effects of chemical reaction and heat absorption on hydromagnetic flow past a moving plate through porous medium with ramped wall temperature in the presence of Hall current and thermal radiation”. Bulletin of Pure and Applied Sciences, Vol.37E(Math& Stat.), (1), 21-40.
  54. Khem Chand and Nidhi Thakur (2018): Effects of rotation, radiation and Hall current on MHD flow of a viscoelastic fluid past an infinite vertical porous plate through porous medium with heat absorption, chemical reaction and variable suction. Journal of the Indian Math. Soc.,Vol. 85, Nos. (1-2), 16-31.
  55. Khem Chand and Nidhi Thakur(2018): Soret effect on MHD natural convection flow with radiative heat transfer past an impulsively moving plate with ramped wall temperature through porous medium Deion: External link  . Research J. Engineering and Tech., Vol. 9(2): 125-134.
  56. Khem Chand and Sapna, Hydromagnetic oscillatory flow and heat transfer in dusty viscoelastic fluid through porous medium in an inclined channel in the presence of thermal radiation and heat sink, Int. J.  Math. Trends & Techn., 53(5), 397-408, 2018.
  57. Khem Chand and Sapna, An analysis of Hall effect on hydromagnetic free convective flow past a vertical plate with ramped wall temperature and concentration and chemical reaction, Int. J. Math. Archive9 (4), 215-228, 2018.
  58. Khem Chand and Sapna, Perturbation analysis of unsteady heat and mass transfer in slip flow regime, Bull. Cal. Math. Soc., 110 (3), 217-244, 2018.
  59. Khem Chand and Sapna(. 2019.), “Hydromagnetic flow near an oscillating wall with constant/periodic suction”, Proceeding of international conference on Mathematics in space and applied sciences (ICMSAS-2019), Knowledge and Research Publisher, Nagpur-India 110 (3), 70-77.
  60. Khem Chand and Sapna (2019), “Hydromagnetic flow of fluid past a vertical plate with ramped wall temperature and concentration in the presence of an inclined magnetic fieldBull. Cal. Math. Soc. 111 (4), 375-398.
  61. Jyoti Prakash, Kaka Ram and Khem Chand (2020): On the characterization of Triply diffusive convection in a sparsely distributed porous medium, Journal of Rajasthan Academy of Physical Sciences, Vol.19, No1&2, 109-118.
  62. 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.
  63. Sukhdev Singh, Khem Chand and Neha (2021): Indian Journal of Pure and Applied Mathematics: A bibliometric survey,1998-2017, Library Progress (International) Vol 41, no-2, 275-286.
  64. Aastha, Khem Chand and Jyoti Prakash Journal (2021): Entropy generation effect in MHD flow through a porous horizontal channel in the presence of slip boundary conditions and porous media, Rajasthan Academy of Physical Sciences ISSN: 0972-6306; Vol.20, No.3&4, 149-164.
  65. Aastha  and Khem Chand (2022): Numerical Exploration of Soret and Dufour Effect on Unsteady Free Convective Radiating Nanofluid Past a Vertical Moving Porous Plate, Journal of Advanced Research    in Fluid Mechanics and Thermal Sciences 97, Issue-1, 20-34.

4.       Name: Dr. Jyoti Prakash

Designation: Professor

Department/Institute: Department of Mathematics & Statistics

Phone/ Mobile No: 9418458026

Email: jpsmaths67@gmail.com

LIST OF RESEARCH 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.
  1. 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.
  1.  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.
  1. 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.
  1. Jyoti Prakash and Kanu Vaid, On hydromagnetic thermohaline instability of Veronis type in porous medium, Int. J. Math. Arch. 5(8), (2014) 129-134
  1.  Jyoti Prakash, Renu Bala and Kanu Vaid, On the characterization of magnetohydrodynamic triply diffusive convection, J. Magn. Magn. Mater. (Elsevier), 377(2015)378–385
  1. 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) .
  1.   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.
  1. 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).
  1. 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).
  1. 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).
  2. 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).
  3. 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.
  4. 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.
  5. 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.
  6. 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.
  7. Jyoti Prakash, Rajeev Kumar and Kultaran Kumari , Linear Triply Diffusive Convection with viscosity variations, Int. J. Phys. Math. Sci.  5(1) (2015), 186-196.
  8. Jyoti Prakash, Kanu Vaid, Shweta Manan and Rajeev Kumar, On Characterization Of    Triply Diffusive Convection,  Int. J.  Ext.  Res. 3, (2015) 87-92.
  9. 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.
  10. 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.
  11.  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.
  12. 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).
  13. Jyoti Prakash, Virender Singh, Rajeev Kumar and Kultaran Kumari, The onset of convection in a rotating multicomponent fluid layer, J. Theoretical and Appl. Mech., (Warsaw) 54(2), (2016), 477-488.
  14. 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.
  15. 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.
  16. 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.
  17. 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.
  18. 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.
  19. Jyoti Prakash, Pankaj Kumar and Shweta Manan, An Energy Relationship in Multicomponent Convection  Problem, International Journal of technology, 6(2), (2016), 99-102.
  20. 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.
  21. Jyoti Prakash, Shweta Manan and Virender Singh, Linear Stability Analysis in Multicomponent Convection, International Journal of technology, 6(2), (2016), 118-122.
  22. 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.
  23. 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.
  24. 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.
  25. 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.
  26. 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.
  27. 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.
  28. 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.
  29. 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.
  30. 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.
  31. 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.
  32. 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).
  33. Jyoti Prakash and Shweta Manan, On Rotatoryhydromagnetic multicomponent convection, Int. J. Appl. Sci. Eng. Res., 5(6), (2016), 405-420.
  34. 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.
  35. 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.
  36. Jyoti Prakash, Shweta Manan, and Virender Singh, On Triply Diffusive Convection in Completely Confined Fluids, Thermal Science (Serbia)DOI :10.2298 (2016).
  37. 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.
  38. 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.
  39. 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.
  40. 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 (Poland) 39( 3), (2017),39-46.
  41. 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.
  42.  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.
  43. 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.
  44. 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).
  45. 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.
  1. 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 (Germany) 39 (2), (2019), 190 – 201. (ISSN-0232-3869,)
  2. 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.
  3. 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.
  4. 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.
  5. 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.
  6. 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.  
  7. 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.
  8. 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.
  9. 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.
  10. Kaka Ram, Vinod Kumar, Pankaj Kumar & Jyoti Prakash, Characterization of Magnetohydrodynamic Triply Diffusive Convection in a Sparsely Distributed Porous Medium: Darcy-Brinkman Model,  Emerging Trends in Contemporary Research (2020) ISBN 978-81-945576-2-3 (ebook), 140-149. (published in conference proceeding).
  11. Aastha, Khem Chand and Jyoti Prakash, Entropy Generation Effect in MHD Flow Through a Porous Horizontal Channel in The Presence of Slip Boundary Conditions and Porous Media, 20(3&4) (2021) 149-164.
  12. kaka Ram , Jyoti Prakash , Kultaran Kumari , Pankaj Kumar  , Upper Bounds for  the Complex Growth Rate of a Disturbance in Ferrothermohaline convection Studia Geotechnica et Mechanica , 2022 ; 114-122.

5.     Name: Dr. Shalini Gupta

Designation: Associate Professor

Department/Institute: Department of Mathematics & Statistics

Phone/ Mobile No: 9418758370

Email: shalini.garga1970@gmail.com

LIST OF RESEARCH PUBLICATIONS

  1. Sharma, Rajesh and Garga, S., On inequalities involving eigenvalues and traces of Hermitian matrices, Annals of Functional Analysis, Vol. 6-No. 2,pp. 78-90, 2015.
  2. Sharma, P. L., Gupta, S. and Rehan, M., Construction of MDS Rhotrices using Special Type of Circulant Rhotrices over Finite Fields, Himachal Pradesh University Journal, 3 (2), pp. 25-43, 2015.
  3. Sharma, P. L., Gupta, S. and Rehan, M., On Circulant -Like Rhotrices over Finite Fields, Applications and Applied Mathematics: An International Journal (AAM), 12 (1), pp. 506-520, 2017.
  4. Sharma, P. L., Gupta, S. and Dhiman, N., Construction of Maximum Distance Separable Rhotrices using Cauchy Rhotrices over Finite Fields, International Journal of Computer Application, 168 (9), pp.  8-17, 2017.
  5. Sharma, P. L., Gupta, S. and Dhiman, N., Sylvester Rhotrices and Their Properties over Finite Field, Bulletin of Pure and Applied Sciences, 36 E (1), pp. 70-80, 2017.
  6. Sharma, P. L., Gupta, S., Constructions of Maximum Distance Separable Toeplitz Rhotrices over Finite Fields, J. of Combinatorics, Information & System Sciences, 42(1-4), pp. 89-110, 2017.
  7. Sharma, P. L., Kumar, A., Gupta, S., Hankel Rhotrices and Constructions of Maximum Distance Separable Rhotrices over Finite Fields, Applications and Applied Mathematics: An International Journal (AAM), 14 (2), 2018.
  8.  Sharma, P. L., Kumar, A., Gupta, S., Maximum Distance Separable Hankel Rhotrices over Finite Fields, J. of Combinatorics, Information & System Sciences, 43(1-4), 2018.
  9. Sharma, P. L., Kumar, A., Gupta, S., Trace of Positive Integer Powers of three and five Dimensional Rhotrices, Bulletin of Pure and Applied Sciences, 39E(1), 2020.
  10. Gupta Shalini, Construction of Symmetric Balanced Incomplete Block Design  using Circulant Rhotrices, accepted for publication in AIP Conference Proceedings.
  11. Sharma, P. L., Gupta, S. and Kumar, A.,  Maximum Distance Separable Rhotrices From Sylvester Rhotrices over Finite Fields, Journal of Advances in Physical Sciences, Himachal Pradesh University.

6.       Name : Dr. Pushap Lata Sharma

Designation: Associate Professor

Department/Institute: Department of Mathematics & Statistics

Phone/ Mobile No: 7018937046

                Email: pl_maths@yahoo.in

LIST OF PUBLICATIONS AFTER JOINING AS AN ASSOCIATE PROFESSOR IN THE DEPARTMENT OF MATHEMATICS AND STATISTICS ON DATED 16-12-2020

  1. Sharma, P.L. (2022). Study of Numerical Methods of Root-Finding Problems, AIP Conference ProceedingsAmerican Institute of Physics (United States), 2451(1), pp. 1-6.

https://doi.org/10.1063/5.0095703

  1. Sharma, P. L., Kumar, A. and Rana, G. C. (2022). On the Principle of Exchange of Stabilities in a Darcy-Brinkman Porous Medium for a Rivlin-Ericksen Fluid Permeated with Suspended Particles Using Positive Operator Method, Stochastic Modeling & Applications, 26(3), pp. 47-55. (UGC Care Approved Journal)
  2. Sharma, P. L., Deepak and Kumar, A. (2022). Effects of Rotation and Magnetic Field on Thermosolutal Convection in Elastico- Viscous Walters` (Model B`) Nanofluid with Porous Medium, Stochastic Modeling & Applications, 26(3), pp. 21-30. (UGC Care Approved Journal)
  3. Sharma, P. L., Bains, D., Kumar, A. and Thakur, P. (2023). Effect of Rotation on Thermosolutal Convection in Jeffrey Nanofluid with Porous Medium, Structural Integrity and Life (Serbia), 23(3), pp. 299-306. (WoS: ESCI Indexed & Scopus, IF = 1.077)
  4. Kumar, A., Sharma, P. L., Deepak and Thakur, P. (2024). Soret and Dufour Effects on Thermosolutal Convection in Jeffrey Nanofluid in the Presence of Porous Medium, Structural Integrity and Life (Serbia), 24(1), pp. 33-39. (WoS: ESCI Indexed & Scopus, IF = 1.077)
  5. Sharma, P. L., Kapalta, M., Deepak, Kumar, A., Sharma, V. and Thakur, P. (2024). Electrohydrodynamics Convection in Dielectric Oldroydian Nanofluid Layer in Porous Medium, Structural Integrity and Life (Serbia), 24(1), pp. 40-48. (WoS: ESCI Indexed & Scopus, IF = 1.077)
  6. Sharma, P. L. and Kapalta, M. (2022). Effect of Rotation and Suspended Particles on the Stability of Jeffrey Fluid in a Porous Medium, International Academy of Science Engineering and Technology (IASET), 11, pp. 57-68. 
  7. Sharma, P. L. and Bains, D. (2023). Thermal instability of Jeffrey Nanofluid in Porous Media with Variable Gravity, In: Mathematics in Space and Applied Sciences (ICMSAS-2023), 1, pp. 73-84. (Sponsored by: DRDO, New Delhi) (Book Chapter)
  8. Sharma, P. L. and Kapalta, M. (2023). Effect of Suspended Particles and Magnetic field on the stability of Jeffrey fluid in porous medium, 2nd International Conference on Mathematics in Space and Applied Sciences (Proceedings ICMSAS-2023), 1, pp. 166- 173. (Sponsored by: DRDO, New Delhi) (Book Chapter)
  9. Koul, M., Thakur, P., Kumar, R., Kaur, J. and Sharma, P. L. (2025). Symmetry of rectangular plate made of isotropic material, Structural Integrity and Life (Serbia), 25(1). (Accepted for Publication on 20/06/2023) (WoS: ESCI Indexed & Scopus, IF = 1.077)
  10. Sharma, P. L., Kapalta, M., Kumar, A., Bains, D. and Thakur, P. (2023). Electrohydro Dynamics Convection in Dielectric Rotating Oldroydian Nanofluid in Porous Medium, Journal of the Nigerian Society of Physical Sciences (Nigeria), 5, pp. 1231(1-8). (Scopus Indexed, IF = 0.458)

 https://doi.org/10.46481/jnsps.2023.1231

  1. Sharma, P. L., Bains, D.  and Thakur, P. (2023).  Thermal Instability of Rotating Jeffrey Nanofluids in Porous Media with Variable Gravity, Journal of the Nigerian Society of Physical Sciences (Nigeria), 5(2), pp. 1366(1-10). (Scopus Indexed, IF = 0.458)

 http://doi.org/10.46481/jnsps.2023.1366

  1. Sharma, P. L., Kumar, A., Bains, D. and Rana, G. C. (2023). Effect of Magnetic Field on Thermosolutal Convection in Jeffrey Nanofluid with Porous Medium, Special Topics & Reviews in Porous Media: An International Journal (Begell House), 14(3), pp. 17–29. (WoS: ESCI Indexed & Scopus, IF = 1.444)

http://doi.org/10.1615/SpecialTopicsRevPorousMedia.2023046929

  1. Sharma, P. L., Kumar, A., Kapalta, M. and Bains, D. (2023). Effect of magnetic field on thermosolutal convection in a rotating non-Newtonian nanofluid with porous medium, International Journal of Applied Mathematics & Statistical Sciences (IJAMSS), 12(1), pp. 19–30.
  2. Bains, D. and Sharma, P. L. (2023). Thermal Instability of Hydro-magnetic Jeffrey Nanofluids in Porous Media with Variable Gravity for: Free-Free, Rigid-Rigid and Rigid-Free boundaries, Special Topics & Reviews in Porous Media: An International Journal (Begell House). 15(2), pp. 51-78. (WoS: ESCI Indexed & Scopus, IF = 1.444)

http://doi.org/10.1615/SpecialTopicsRevPorousMedia.2023048444

  1. Sharma, P. L., Bains, D. and Rana, G. C. (2023). Effect of variable gravity on thermal convection in Jeffrey nanofluid: Darcy-Brinkman Model, Numerical Heat Transfer, Part B: Fundamentals, pp. 1-15 (Taylor & Francis)(WoS: SCIE Indexed & Scopus, IF = 1.586)  https://doi.org/10.1080/10407790.2023.2256970
  1. Sharma, P. L. and Kapalta, M. (2023). Stationary convection in double-diffusive dielectric nanofluid, In: Recent Advances in Mathematical Sciences (ICRAMS-2023), 1, pp. 268–277. (Book Chapter)
  2. Bains, D. and Sharma, P. L. (2023). Effect of variable gravity on thermal convection in Jeffrey nanofluid, In: Recent Advances in Mathematical Sciences (ICRAMS-2023), 1, pp. 314–322. (Book Chapter)
  3. Thakur, P., Banbhori, S., Pathania, D. S., Kaur, J. and Sharma, P. L. (2023). Thermal stress distribution in a tube of natural rubber/polyurethane and subjected to internal pressure and mechanical load, Structural Integrity and Life (Serbia), 24(2). (Accepted for Publication) (WoS: ESCI Indexed & Scopus, IF = 1.077)
  4. Thakur, P., Banbhori, S., Pathania, D. S., Kaur, J. and Sharma, P. L. (2023). Comparative study of creep in a disk of rubber/copper fitted with rigid shaft, Structural Integrity and Life (Serbia), 24(2). (Accepted for Publication) (WoS: ESCI Indexed & Scopus, IF = 1.077)
  5. Sharma, P. L., Kumar, V., Bains, D., Lata, P., Kumar, A. and Thakur, P. (2024). Effect of Suspended Particles on the Thermal Convection in Jeffrey Fluid in a Darcy-Brinkman Porous Medium, Nova Science Publishers, Inc., USA., pp. 113-126. (Scopus Indexed) (Book Chapter) https://doi.org/10.52305/MHVY6741
  1. Bains, D., Sharma, P. L. and Rana, G. C. (2024). Effect of variable gravity on thermal convection in rotating Jeffrey nanofluid: Darcy-Brinkman Model, Special Topics & Reviews in Porous Media: An International Journal (Begell House), 15(5), pp. 25-40. (WoS: ESCI Indexed & Scopus, IF = 1.444) https://doi.org/10.1615/SpecialTopicsRevPorousMedia.2023049875
  1. Sharma, P. L. and Kapalta, M. (2023). Electrothermosolutal convection in nanofluid saturating porous medium, Special Topics & Reviews in Porous Media: An International Journal (Begell House)(In Publication: WoS: ESCI Indexed & Scopus, IF = 1.444) https://doi.org/10.1615/SpecialTopicsRevPorousMedia.2023049041
  1. Sharma, P. L., Kumar, A., Bains, D., Lata, P. and Thakur, P. (2023). Thermal convective instability in a Jeffery nanofluid saturating a porous medium: rigid-rigid and rigid-free boundary conditions, Structural Integrity and Life (Serbia), 23(3), pp. 351–356. (WoS: ESCI Indexed & Scopus, IF = 1.077)
  2. Sharma, P. L., Kumar, A. (2024). Effects of rotation and magnetic field on thermosolutal convection in Jeffrey nanofluid with porous medium, Special Topics & Reviews in Porous Media: An International Journal (Begell House), 15(3), pp. 43–60. (WoS: ESCI Indexed & Scopus, IF = 1.444) https://doi.org/10.1615/SpecialTopicsRevPorousMedia.2023048400
  1. Sharma, P. L., Lata, P., Bains, D., Kumar, A. and Thakur, P. (2024). On the onset of stationary convection on Jeffrey nanofluid layer saturated with a porous medium: Brinkman model, Structural Integrity and Life (Serbia), 24(2). (Accepted for Publication on 08/11/2023) (WoS: ESCI Indexed & Scopus, IF = 1.077)
  2. Kumar, A., Sharma, P. L., Lata, P., Bains, D. and Thakur, P. (2024). Effect of magnetic field on the onset of thermal convection in a Jeffery nanofluid layer saturated by a porous medium: free-free, rigid-rigid and rigid-free boundary conditions, Journal of the Nigerian Society of Physical Sciences (Nigeria)(Accepted for Publication: Scopus Indexed, IF = 0.458)
  3. Sharma, P. L., Kumar, A., Lata, P. and Rana, G. C. (2024). Effect of magnetic field in rotating Jeffrey nanofluid saturated by a porous medium: free-free, rigid-rigid and rigid-free boundary conditions, Structural Integrity and Life (Serbia), 24(3). (Accepted for Publication on 02/03/2024) (WoS: ESCI Indexed & Scopus, IF = 1.077)
  4. Sharma, P. L., Lata, P. and Kumar, A. (2025). Effect of magnetic field on thermal instability in a porous medium layer saturated by a Jeffrey nanofluid using brinkman model: free-free, rigid-rigid, rigid-free boundary conditions, Structural Integrity and Life (Serbia), 25(1). (Accepted for Publication on 01/03/2024) (WoS: ESCI Indexed & Scopus, IF = 1.077)
  5. Sharma, P. L., Lata, P. and Kumar, A. (2025). Effect of magnetic field on thermal instability in a porous medium layer saturated by a Jeffrey nanofluid using Brinkman model: free-free, rigid-rigid, rigid-free boundary conditions, Structural Integrity and Life (Serbia), 25(1). (Accepted for Publication on 07/03/2024) (WoS: ESCI Indexed & Scopus, IF = 1.077)
  6. Sharma, P. L., Bains, D. and Rana, G. C. (2024). On thermal convection in rotating Casson nanofluid permeated with suspended particles in a Darcy-Brinkman porous medium, Journal of Porous Media (Begell House)(In Publication: WoS: SCIE Indexed & Scopus, IF = 2.3) https://doi.org/10.1615/10.1615/JPorMedia.2024052821
  1. Sharma, P. L., Bains, D. (2024). Effect of suspended particles on the stability analysis of Casson nanofluid in a Darcy-Brinkman porous medium, Special Topics & Reviews in Porous Media: An International Journal (Begell House)(In Publication: WoS: ESCI Indexed & Scopus, IF = 1.444)

 

7.        Name: Dr. Madhu Bala Dadhwal

Designation: Assistant Professor

Department/Institute: Department of Mathematics & Statistics

Phone/ Mobile No: 9418040291

Email: mpatial.math@gamil.com

LIST OF RESEARCH PUBLICATIONS

1. Ram Parkash Sharma, Arvind Kumar Sharma and Madhu, Fuzzy Systems of N  in Group Decision Making,World Academy of Science, Engineering and Technology56 (2009) 168-175.

2. Ram Parkash Sharma, Madhu and Rosy Joseph, Semimodules Over Graded Semialgebras, In: The proceeding of “The First International Conference on Mathematics and Statistics (AUS-ICMS 2010)” Sponsored by American Mathematical Society, Paper #100454 pp.1-6.

3. Ram Prakash Sharma and Madhu, Prime Correspondence between a Semiring R and its G-fixed Semiring RG ,  Journal of Combinatorics, Information & System Sciences35 (2010) 481-499.

4. Ram Prakash Sharma and Madhu, On Connes Subgroups and Graded Semirings, Vietnam Journal of Mathematics38:3 (2010) 287-298 (Springer Verlag).

5. G.C. Rana, Madhu Patial, Thermal Instability of Compressible Rivlin-Ericksen Rotating Fluid Permeated with Suspended Dust Particles in the Presence of Vertical Magnetic Field in Porus Medium,International Journal of Heat and Technology29:2 (2011) 51-55

6. Ram Parkash Sharma and Madhu, On Strong Radical Theory for Semirings In: The book “Recent Advances in Continuum Mechanics and Algebra”, Edited by R. P. Sharma and J. S. Dhiman (Regal Publications,New Delhi 2010), Chapter 12, pp. 121-131

7. Ram Parkash Sharma and Madhu, Strong Lower Radicals of Semirings In: The book “Recent Advances in Continuum Mechanics and Algebra”, Edited by R. P. Sharma and J. S. Dhiman (Regal Publications,New Delhi 2010), Chapter 13, pp. 132-142.

8. Ram Parkash Sharma and Madhu On strong Connes Subgroup, Himachal Pradesh University Journal 03(2015)13-24.

9. Ram Prakash Sharma,Madhu and Richa Sharma, Relationships between a Semiring R and Quotient Semiring RQ(I), Journal of Combinatorics, Information & System Sciences41 (2016) 227-234.

10. Partitioning ideals of a semiring R and its skew group semiring R*GRicha Sharma and MadhuJournal of Combinatorics, Information & System SciencesVolume 43 (2018) pp 47-56.

11.Ram Prakash Sharma,Madhu and Richa Sharma, On Radicals of Semirings Asian Europian journal of Mathematics ( published online)vol.21`, no.5(2020)DOI:10.1142/SI793557120501387

12.Ram Prakash Sharma, Madhu Dadhwal, Richa Sharma and S. Kar,On Primary Decomposition of k-ideals and Fuzzy k-idealsin semirings,Fuzzy Information and Engineering 13(2) (2021) 223-235  DOI: https://doi.org/10.1080/16168658.2021.1950390 

13. Madhu Dadhwal and Neelam, Study of Additively Regular G- Semirings and Derivations, Discussiones Mathematicae - General Algebra and Applications 42 (1) (2022) 201-215.

14. Madhu Dadhwal, Neelam and Pankaj, Study of Derivations on *-Prime Semirings, Himachal Pradesh University Journal Accepted.

15. Madhu Dadhwal and Geeta Devi, On Derivations of Semirings, Himachal Pradesh University Journal Accepted.

16. Madhu Dadhwal and Geeta Devi, On Secondary Semimodules in Semirings, Himachal Pradesh University Journal  Accepted.

17. Madhu Dadhwal and Neelam, ON DERIVATIONS AND LIE IDEALS OF SEMIRINGS, Mathematica Pannonica New Series 28-NS2(1) (2022) 81-99

18. Madhu Dadhwal, Geeta Devi,On pseudo valuation and pseudo almost valuation semidomains,Malaya Journal of Matematik 10 (02) (2022) 151-158

19. Madhu Dadhwal, Pankaj, RP Sharma,On euclidean norms and factorization in ternary semi-domainsArya Bhatta Journal of Mathematics and Informatics 14 (1) (2022) 13-26

20. Madhu Dadhwal and Geeta Devi, On generalized derivations of semirings, Georgian Mathematical Journal (2022) Published(online)https://doi.org/10.1515/gmj-2022-2178

21. Madhu Dadhwal and Pankaj, On Distinguishing Labelling of Sets Under the Wreath Product Action,Indian Journal of Pure and Applied Mathematics (2022) Published online(Springer) DOI: 10.1007/s13226-022-00314-w

22. Madhu Dadhwal and Neelam, On Derivations and Lie Structure of Semirings, Advances and Applications in Mathematical Sciences (2022)(accepted)

23. Madhu Dadhwal and Geeta Devi, On Symmetric Generalized (θ, η)-Biderivations of Prime Rings,Discussiones Mathematicae - General Algebra and Applications(2022)(accepted)

24. Madhu Dadhwal and Pankaj, Group Codes over Binary Tetrahedral Group,  Journal of Mathematical Cryptology (JMC) (2022)(accepted)

8.   Name: Dr. Mansi Harish Nee Mansi Rehan

                    Designation: Assistant Professor

                    Department/Institute: Department of Mathematics & Statistics

                     Phone/ Mobile No:  92180-40675 (M), 0177-2833774(O)

                     Email: mansihverma16@gmail.com

 RESEARCH   PUBLICATIONS:

1.  Sharma, P.L. and Rehan, M., On Security of Hill Cipher using Finite Fields, International Journal of Computer Applications, Vol. 71, No.4, P. 30-33, (May 2013).

2. Sharma, P. L., Kumar, S. and  Rehan, M., On Vandermonde and MDS Rhotrices over GF(2q), International Journal of Mathematics and Analysis, Vol. 5, No. 2, P. 143-160, (July- Dec., 2013).

3. Sharma, P. L., Kumar, S. and  Rehan, M., On HadamardRhotrix over Finite Field, Bulletin of Pure and Applied Sciences, Vol. 32 E (Math & Stat.), No.2, P. 181-190, (2013).

4. Sharma, P.L. and Rehan, M., Modified Hill Cipher Using Vandermonde Matrix and Finite Field, International Journal of Technology, Vol. 4, No. 1, P. 252- 256, (Jan.-June, 2014).

5. Sharma P. L., Kumar S. and Rehan M. ,On construction of Hadamard codes using Hadamard rhotrices, International Journal of Theoretical & Applied Sciences , Vol.6, No.1, P. 102-111, (2014).

6. Sharma P. L. and Rehan M., On approximate values of irreducible polynomials over GF(3) with first three given coefficients, International journal of Mathematics and analysis,Vol. 6, No. 1, P. 103-128, (January-June 2014).

7. Sharma P. L. and Rehan M., Approximating number of irreducible polynomials over  GF(p)  with several given coefficients, Bulletin of Pure and Applied Sciences, Vol. 33 E (Math & Stat.), No.1, P. 51-74, (2014).

8. Sharma P. L. and Rehan M., On number of irreducible polynomials over finite field, Recent Trends in Algebra and Mechanics, P. 41-56, Indo-American Books Publisher, New Delhi, (2014).

9. Sharma P. L., Rehan M. and Sharma S., Counting irreducible polynomials over GF(3) with first and third coefficients given, Asian-European Journal of Mathematics, Vol. 8, No. 1, 1550015 (27 pages), (2015).

10. Sharma P. L., Rehan M. and Sharma S., Irreducible polynomials over GF(3) with first and second prescribed coefficients, Asian Journal of  Mathematics & Physics, Vol. 2015, article ID       amp0209, 15 pages, (2015)

11. Sharma P. L., Sharma S. and Rehan M., On construction of irreducible polynomials over , Journal of Discrete Mathematical Sciences and Cryptography, Vol. 18, No. 4, P. 335-347, (2015).

12. Sharma P. L., Sharma S. and Rehan M., Construction of Infinite Sequences of Irreducible   Polynomials over F2, International Journal of Math, Sci. & Engg. Appls., Vol. 9, No. III, P. 19-35, (2015).

13. Sharma P. L., Kumar S. and Rehan M., On factorization of a special type of Vandermonde rhotrix, Applications and Applied Mathematics: An International Journal, Vol. 10, No. 1, P. 421-439, (2015).

14. Sharma P. L., Gupta S. and Rehan M., Construction of MDS rhotrices using special type of circulant rhotrices over finite fields, H. P. University Journal, Vol. 3, No. 2, P. 25-43, (2015).

15. Sharma P. L., Gupta S. and Rehan M., On circulant-like rhotrices over finite fields, Applications and Applied Mathematics: An International Journal, Vol. 12, No. 1, P. 506-520, (2017).

16. Harish M., Dhiman N. and Kumar S., Hill Cipher Cryptosystem using self-inverible Rhotrices over Finite Fields, accepted for publication in Journal of Advances in Physical Sciences.

17. Sharma P. L., Ashima, Gupta Shalini, Harish Mansi and Kumar Sushil, Constructions of Irreducible Polynomials over Finite Fields with Even Characteristics, Indian Journal of Pure and Applied Mathematics, https://doi.org/10.1007/s13226-022-00291-0.

9.         Name: Ms. Mehak Mahajan

Designation: Assistant Professor

Department/Institute: Department of Mathematics & Statistics

Phone/ Mobile No: 9816778179

Email: mahajanm826@gamil.com

LIST OF RESEARCH PUBLICATION

1. Joginder Singh Dhiman and Mehak Mahajan, “Gravitational Instability in viscoelastic medium with dissipative effects”, Proc. Of International Conference on Mathematics in Space and Applied Sciences (2019), pp. 112-116, ISBN-978-81-942641-8-7.

2. Joginder Singh Dhiman and Mehak Mahajan, On the Jeans Instability in Strongly Coupled Clumpy Molecular Cloud with Dissipative effects, Journal of Astrophysics and Astronomy (Accepted for publication on 24/10/2022)

 

 

 

 

 

 

 

 

   

 

×