Dr. Jihad Hasan Jabali Asad
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Dr. Jihad Hasan Jabali Asad

Head and Professor
Palestine Technical University, Kadoorie, Tulkarm, Palestine

Highest Degree
Ph.D. in Physics from University of Jordan, Jordan

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Biography

Dr. Jihad Hasan Jabali Asad is currently working as Associate Professor of Theoretical and Mathematical Physics at Palestine Technical University-Kadoorie, Palestine. He has completed his Ph.D. in Physics from University of Jordan, Jordan. Previously he served as Assistant Professor Philadelphia University, Jordan, The University of Jorddan, Amman- Jordan and Birzeit University, Birzeit- Palestine, An-Najah National University, Nablus-Palestine and Tabuk University, Tabuk-Saudi Arabia. He is associate editor for many journals and reviewer for number of journals. He is member of American Physical Society (APS), Institute of Physics (IOP), and member of IEEE. He has published 31 research articles in journals contributed as author/co-author.

Area of Interest:

Physics
100%
Theoretical Physics
62%
Mathematical Physics
90%
Fractional Calculus
75%
Condensed Matter Physics
55%

Research Publications in Numbers

Books
0
Chapters
0
Articles
79
Abstracts
3

Selected Publications

  1. Tan, Z., Z.Z. Tan, J.H. Asad and M. Owaidat, 2019. Electrical characteristics of the 2×n and m×n circuit network. Phys. Scripta, Vol. 94. 10.1088/1402-4896/ab033c.
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  2. Owaidat, M.Q., J.H. Asad and Z.Z. Tan, 2019. Resistance computation of generalized decorated square and simple cubic network lattices. Results Phys., 12: 1621-1627.
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  3. Owaidat, M.Q. and J.H. Asad, 2019. Resistance calculation of pentagonal lattice structure of resistors. Commun. Theor. Phys., Vol. 71. 10.1088/0253-6102/71/8/935.
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  4. Baleanu, D., S.S. Sajjadi, A. Jajarmi and J.H. Asad, 2019. New features of the fractional Euler-Lagrange equations for a physical system within non-singular derivative operator. Eur. Phys. J. Plus, Vol. 134. 10.1140/epjp/i2019-12561-x.
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  5. Baleanu, D., A. Jajarmi and J.H. Asad, 2019. Classical and fractional aspects of two coupled pendulums. Roman. Rep. Phys., Vol. 103. .
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  6. Abu-As'ad, A., H. Shanak and J. Asad, 2019. Classical features of the motion of a heavy bead sliding on a rotating wire. J. Theor. Applied Mech. Sofia, 49: 224-232.
  7. Owaidat, M.Q., A.A. Al-Badawi, J.H. Asad and M. Al-Twiessi, 2018. Two-point resistance on the centered-triangular lattice. Chinese Phys. Lett., Vol. 35. 10.1088/0256-307X/35/2/020502.
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  8. Khalilia, H., R. Jarrar and J. Asad, 2018. Numerical study of motion of a spherical particle in a rotating parabola using Lagrangian. J. Serbian Soc. Comput. Mech., 12: 44-51.
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  9. Baleanu, D., J.H. Asad and M. Alipour, 2018. On the motion of a heavy bead sliding on a rotating wire-Fractional treatment. Results Phys., 11: 579-583.
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  10. Baleanu, D., J.H. Asad and A. Jajarmi, 2018. New aspects of the motion of a particle in a circular cavity. Proc. Roman. Acad., Series A, 19: 143-149.
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  11. Baleanu, D., A. Jajarmi and J.H. Asad, 2018. The fractional model of spring pendulum: New features within different kernels. Proc. Roman. Acad., Series A., 19: 447-454.
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  12. Tan, Z.Z., J.H. Asad and M.Q. Owaidat, 2017. Resistance formulae of a multipurpose n‐step network and its application in LC network. Int. J. Circuit Theory Applic., 45: 1942-1957.
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  13. Tan, Z.Z., H. Zhu, J.H. Asad and H. Tang, 2017. Characteristic of the equivalent impedance for an m×n RLC network with an arbitrary boundary. Front Inform. Technol. Elect. Eng., 18: 2070-2081.
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  14. Hasan, E.H. and J.H. Asad, 2017. Remarks on fractional Hamilton-Jacobi formalism with second-order discrete lagrangian systems. J. Adv. Phys., 6: 430-433.
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  15. Baleanu, D., J.H. Asad, M. Alipour and T. Blaszczyk, 2017. Motion of a spherical particle in a rotating parabola using fractional Lagrangian. UPB Scient. Bull., Series A: Applied Math. Phys., 79: 183-192.
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  16. Baleanu, D., A. Jajarmi, J.H. Asad and T. Blaszczyk, 2017. The motion of a bead sliding on a wire in fractional sense. Acta Phys. Polonica A., 131: 1561-1564.
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  17. Owaidat, M.Q., J.H. Asad and Z.Z. Tan, 2016. On the perturbation of a uniform tiling with resistors. Int. J. Modern Phys. B, Vol. 30. 10.1142/S0217979216501666.
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  18. Owaidat, M.Q. and J.H. Asad, 2016. Resistance calculation of three-dimensional triangular and hexagonal prism lattices. Eur. Phys. J. Plus, Vol. 131. 10.1140/epjp/i2016-16309-x.
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  19. Baleanu, D., T. Blaszczyk, J.H. Asad and M. Alipoure, 2016. Numerical study for fractional Euler-Lagrange equations of a harmonic oscillator on a moving platform. Acta Phys. Polonica A., 130: 688-691.
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  20. Asad, J.H., R.S. Hijjawi, E.H. Hasan, A.A. Diab and J.M. Khalifeh, 2016. Remarks on the lattice Green's Function for the anisotropic face centered cubic lattice. Acta Physica Polonica A, 129: 52-58.
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  21. Owaidat, M.Q., J.H. Asad and J.M. Khalifeh, 2015. Resistance calculation of the decorated centered cubic networks: Applications of the Green's function. Mod. Phys. Lett. B, Vol. 28, No. 32. 10.1142/S0217984914502522.
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  22. Baleanu, D., J.H. Asad and I. Petras, 2015. Numerical solution of the fractional Euler-Lagrange's equations of a thin elastica model. Nonlinear Dynamics, 81: 97-102.
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  23. Owaidat, M.Q., R.S. Hijjawi, J.H. Asad and J.M. Khalifeh, 2014. The two-point capacitance of infinite triangular and honeycomb networks. Eur. Phys. J.-Applied Phys., 68: 10102-10108.
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  24. Baleanu, D., J.H. Asad and I. Petras, 2014. Fractional bateman-feshbach tikochinsky oscillator. Commun. Theoret. Phys., 61: 221-225.
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  25. Asad, J.H., A.A. Diab, M.Q. Owaidat, R.S. Hijjawi and J.M. Khalifeh, 2014. Infinite body centered cubic network of identical resistors. Acta Physica Polonica A, 125: 60-64.
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  26. Asad, J.H., A.A. Diab, M.Q. Owaidat and J.M. Khalifeh, 2014. Perturbed infinite 3D simple cubic network of identical capacitors. Acta Physica Polonica A, 126: 777-781.
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  27. Owaidat, M.Q., R.S. Hijjawi, J.H. Asad and J.M. Khalifeh, 2013. Electrical networks with interstitial single capacitor. Mod. Phys. Lett., Vol. 27, 10.1142/S0217984913501236.
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  28. Diab, A.A., R.S. Hijjawi, J.H. Asad and J.M. Khalifeh, 2013. Hamiltonian formulation of classical fields with fractional derivatives: Revisited. Meccanica, 48: 323-330.
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  29. Asad, J.H., A.A. Diab, R.S. Hijjawi and J.M. Khalifeh, 2013. Infinite face-centered-cubic network of identical resistors: Application to lattice Green's function. Eur. Phys. J. Plus, Vol. 128, 10.1140/epjp/i2013-13002-8.
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  30. Asad, J.H., 2013. Infinite simple 3D cubic network of identical capacitors. Mod. Phys. Lett., B, Vol. 27, 10.1142/S0217984913501121.
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  31. Asad, J.H., 2013. Infinite 3D cubic lattices of identical resistors. Applied Mech. Mater., 313-314: 324-328.
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  32. Asad, J.H., 2013. Exact evaluation of the resistance in an infinite face-centered cubic network. J. Statistical Phys., 150: 1177-1182.
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  33. Asad, J.H., 2013. Analysis of infinite d-dimensional networks-capacitance between two adjacent nodes. J. Electrostat., 71: 754-755.
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  34. Baleanu, D., J.H. Asad, I. Petras, S. Elagan and A. Bilgen, 2012. Fractional euler-lagrange equation of caldirola-kanai oscillator. Rom. R. Phys., 64: 1171-1177.
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  35. Baleanu, D., J.H. Asad and I. Petras, 2012. Fractional-Order Two-Electric Pendulum. Rom. Rep. Phys., 64: 907-914.
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  36. Baleanu, D., I. Petras, J.H. Asad and M.P. Velasco, 2012. Fractional Pais–Uhlenbeck Oscillator. Int. J. Theor. Phys., 51: 1253-1258.
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  37. Asad, J.H., 2012. Thermodynamic Functions for Body Centred Lattice-Application on Lattice Green’s Function. Adv. Stud. Theor. Phys., 6: 165-176.
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  38. Asad, J.H., R.S. Hijjawi, A.J. Sakaji and J.M. Khalifeh, 2010. Infinite network of identical capacitors. Mod. Phys. Lett. B, 24: 695-705.
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  39. Asad, J.H., 2009. Analyzing the capacitance networks. Asian J. Applied Sci., 2: 296-299.
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  40. Hijjawi, R.S., J.H. Asad, A.J. Sakaji, M. Al-sabayleh and J.M. Khalifeh, 2008. Infinite simple 3D cubic lattice of identical resistors (two missing bonds). Eur. Phys. J. Applied Phys., 41: 111-114.
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  41. Hijjawi, R.S., J.H. Asad, A.J. Sakaji and J.M. Khalifeh, 2007. Perturbation of an infinite network of identical capacitors. Int. J. Mod. Phys. B, 21: 199-209.
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  42. Asad, J.H., R.S. Hijjawi, A.J. Sakaji and J.M. Khalifeh, 2007. Infinite 2D square network of identical capacitors with two missing bonds. Eur. Phys. J. Applied Phys., 40: 257-264.
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  43. Asad, J.H., A. Sakaji, R.S. Hijjawi and J.M. Khalifeh, 2006. On the resistance of an infinite square network of identical resistors-theoretical and experimental comparison. Eur. Phys. J. B, 52: 365-370.
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  44. Asad, J.H., 2006. Differential equation approach for one- and two-dimensional lattice green's function. Mod. Phys. Lett. B, 21: 139-154.
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  45. Asad, J.H., R.S. Hijjawi, A.J. Sakaji and J.M. Khalifeh, 2005. Infinite network of identical capacitors by Green's function. Int. J. Mod. Phys. B, 19: 3713-3721.
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  46. Asad, J.H., R.S. Hijjawi, A. Sakaji and J.M. Khalifeh, 2005. Capacitance between two points on an infinite grid. Eur. Phys. J. Applied Phys., 32: 149-154.
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  47. Asad, J.H., R.S. Hijjawi, A. Sakaj and J.M. Khalifeh, 2005. Remarks on perturbation of infinite networks of identical resistors. Int. J. Theor. Phys., 44: 471-483.
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  48. Sakaji, A.J., J.H. Asad, R.S. Hijjawi and J.M. Khalifeh, 2004. Application of the lattice green's functions for triangular lattice. Elec. J. Theo. Phys., 3: 8-15.
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  49. Hijjawi, R.S., J.H. Asad, A.J. Sakaji and J.M. Khalifeh, 2004. Lattice green's function for the face centered cubic lattice. Int. J. Theo. Phys., 43: 2299-2309.
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  50. Asad, J.H., R.S. Hijjawi, A. Sakaji and J.M. Khalifeh, 2004. Resistance calculation for an infinite simple cubic lattice application of Green's function. Int. J. Theo. Phys., 43: 2223-2235.
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