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Prof. Jasobanta Jena
Professor (On Deputation)
Qualification
Ph.D.
Phone
9868839147

 

Areas of Interest

  1. Gas-dynamic Waves,
  2. Shock Waves.

 

 

Publications in International Journal

 

Publications in National Journal

 

Publications in National Conferences

 

Publications in International Conferences

 

Books/Book Chapters

 

Publications (Click to expand)

1. In International Journals:

[1]       J. Jena and V. D. Sharma, Lie Transformation group solutions of nonlinear equations describing Viscoelastic materials, Int. J. Engng. Sci., (Elsevier)  35, No. 10/11 (1997) 1033 – 1044.

[2]       J. Jena and  V. D. Sharma, Far field behaviour of waves in a relaxing gas, Acta Astrounautica, (Elsevier)   40, No. 10 (1997) 713-718.

[3]       J. Jena and  V. D. Sharma, Backlund Transformations for the nonlinear evolution equation zyy =[A(x,y,z)zx ]x  , IL Nuovo Cimento, 113B, No. 2 (1998) 213 – 219.

 [4]      J. Jena and  V. D. Sharma, Self-similar shocks in a dusty gas, Int. J. Nonlinear Mechanics, (Elsevier)   34, (1999)  313 - 327.

[5]       J. Jena and  V. D. Sharma,  Backlund Transformations for linear equations with variable coefficients, , IL Nuovo Cimento, 114B, No. 9 (1999) 1003 – 1016.

[6]       J. Jena and  V. D. Sharma,  Propagation and Interaction of waves in a non-ideal gas,  ZAMM, (Wiley Interscience) 81 (2001) 6, 417-429.

[7]       J. Jena, Group Theoretic Method for Analyzing Interaction of a Weak Discontinuity Wave with a Bore in Shallow Water, Applicable Analysis,  (Taylor & Francis) 84 (2005) 1, 37-48.

[8]       J. Jena, Lie-Group theoretic method for analyzing interaction of discontinuous waves in a relaxing gas, Z. Angew. Math. Phys. (ZAMP), Springer, 58 (2007), 416-430,

[9]       J. Jena, On Interaction Of Discontinuous Waves In A Gas With Dust Particles, Australian Journal of Mathematical Analysis and Applications (AJMAA), 4, Issue 2, Article 5,  (2007), 1-7.

[10]        J. Jena and V. D. Sharma, Interaction of a characteristic shock 
with a weak Discontinuity in a relaxing gas, Journal of Engineering 
Mathematics (Springer) 60 (2008), 43-53.

[11]     J. Jena, Interaction of Weak Discontinuous wave with a Characteristic Shock in a dusty gas, Theor. Comput. Fluid Dyn. (TCFD) Springer 22 (2008), 145–150.

[12]     J. Jena, Lie Group Transformations for Self-Similar Shocks In A Gas With Dust Particles, Math. Meth. Appl. Sci., Wiley, 32 (2009),  2035 – 2049.

[13]     J.  Jena, An Algorithm for Solutions of Linear Partial Differential Equations via Lie Group of Transformations, Applied Mathematical Sciences, Vol. 5, 2011, no. 27, 1337 – 1347.

[14]     J. Jena, Self-similar solutions in a plasma with axial magnetic field (θ-pinch), Meccanica (Springer),  47 , Issue – 5 (2012),  1209 – 1215.

[15]     J. Jena, Lie Group of Transformations to Study Anisotropic Diffusion of Scalar Images, LJM (Springer), Vol. 33, No. 3 (2012), 232–238.

[16]     J. Jena and Randheer Singh, Existence and interaction of acceleration wave with a characteristic shock in transient pinched plasma, Meccanica (Springer), 48 , (2013),  733 – 738.

[17]     Randheer Singh and J. Jena, Evolution and Interaction of a Characteristic Shock with an acceleration Wave in a Reacting Gas, LJM (Springer), Vol. 34, issue-3, (2013),  248-255.

[18]                 Randheer Singh and J. Jena, Interaction of an Acceleration Wave with a Strong Shock in Reacting Polytropic Gases, Applied Mathematics & Computation, (Elsevier), Vol. 225, (2013), 638-644.

[19]     J. Jena and Randheer Singh, Existence of Self Similar Solutions in Reacting Gases, Shock Waves (Springer), Vol. 24, (2014), 211-218.

[20]     Meera Chadha and J. Jena, Self similar solutions and converging shocks in a non-ideal gas with dust particles, Int. J. Non-Linear Mech. Vol. 65, (2014), 164-172.

[21]   Meera Chadha and J. Jena, Singular surface and steepening of waves in a non-ideal gas with dust particles, Computational and Applied Mathematics (Springer), Vol. 34, (2015) 729739

[22]     Meera Chadha and J. Jena, Wave propagation in a non-ideal dusty gas, Int. J. Non-Linear Mech. Vol. 74, (2015), 18-24.

[23]     Randheer Singh and J. Jena, One dimensional steepening of waves in non-ideal relaxing gas, Int. J. Non-Linear Mech. Vol. 77, (2015), 158-161.

[24]     J. Jena and Meera Chadha,   Interaction of an Acceleration Wave with a Strong Shock in Transient Pinched Plasma, Journal of Applied Fluid Mechanics , Vol. 9, No. 5, (2016) 2629-2634.

[25]     Monica Saxena and J. Jena, Interaction of an acceleration wave with a characteristic shock in a non-ideal relaxing gas, Int. J. Non-linear Mech., Vol. 82, (2016) 17-23.

[26]     Meera Chadha and J. Jena, Propagation of weak waves in a dusty, van der Walls gas, Meccanica, Vol. 51, (2016) 2145-2157.

[27]     Randheer Singh and J. Jena, Evolution of weak waves and central expansion waves in a non-ideal relaxing gas, Ain Shams Engineering Journal (2016) Vol. 7, Issue 1, 409-413.

[28]     Monica Saxena and J. Jena, Self - Similar Solutions and Converging Shocks at the Stellar Surfaces, Astrophysics and Space Science,  Volume 362, Issue 9, (2017) 1-11

[29]     Randheer Singh and J. Jena, On evolution of non-linear waves in polytropic reacting gases, Journal of Mathematical Chemistry, Volume 56, Issue 1, (2018) 232-246.

[30]     Bhawna Gupta and J. Jena, Kinematics of spherical waves in interstellar gas clouds, International Journal of Nonlinear Mechanics, Volume 99, (2018) 51-58. 

[31]     Sonu Mehla and J. Jena, Propagation of singular surfaces in a non-ideal gas with axial magnetic field, Rockey Mountain Journal of Mathematics, Volume 49, Number 1 (2019), 235-245.

[32]     Sonu Mehla and J. Jena, Shock wave kinematics in a relaxing gas with dust particles, Zeitschrift für Naturforschung A (A Journal of Physical Sciences), Volume 74, Issue 9 (2019), 787-798.

[33]     Sheena Mittal and J. Jena, Interaction of a singular surface with characteristic shock in a relaxing gas with dust particles, Zeitschrift für Naturforschung A (A Journal of Physical Sciences), Volume 75, Issue 2 (2020), 119-129.

[34]     Meera Chadha and J. Jena, Impact of dust in the decay of blast waves produced by a nuclear explosion, Published online on June 24, 2020, Proceedings A of Royal Society of London (Impact Factor 4.304). 

[35]     Meera Chadha and J. Jena, Estimation of reduction in damage by a nuclear blast wave with the addition of dust, Journal of the Physical Society of Japan, 89, 094004 (2020).

[36]     Meera Chadha and J. Jena, An Analysis of Decay of Blast Waves in Dusty Gases, Journal of the Physical Society of Japan 90, 064003 (2021).

 

[37]     S. Saha, R. Singh and J. Jena, Steepened wave in two-phase Chaplygin flows comprising a source term, Applied Mathematics and Computation 413, 126656 (2022).

[38]     J. Jena and S. Mittal, Interaction of a singular surface with a strong shock in the interstellar gas clouds, ANZIAM J. (First published online 2021), page 1 of 17,  doi:10.1017/S1446181121000328.

 

2. In National Journals:           Nil

 

3. In International Conference Proceedings

 

 [1]       J. Jena and V. D. Sharma, On the Evolution of a Characteristic Shock and its Interaction with a Discontinuity Wave in a Relaxing Gas, Proceedings of “the Fourth International Conference on Mathematical and Numerical Aspects of Wave Propagation (Organized by SIAM, USA, with the cooperation of INRIA, France)” , June 1 – 5 , (1998 ) 685 – 687.

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