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Name: Dr. Muhammad Arshad Fiaz
Designation: Assistant Professor
Department: Electronics


Qualifications: Ph. D Electronics Engineering
Roma Tre University Rome, Italy.


Phone: +92-51 9064-3215
Email: arshadfiaz@qau.edu.pk
Status: On job
Other Weblink: http://ele.qau.edu.pk/index.php?option=com_content&view=article&id=127&Itemid=435


Research Interests Publications Conferences Research Projects

Buried objects Detection and Shape Reconstruction

Machine Learning

Scattering from Random Rough surface

Numerical Methods

Metamaterials

Fractals

 

Journal Publications
1. M. A. Fiaz, A. Ghaffar, and Q. A. Naqvi, High frequency expressions for the field in the caustic region of a PEMC cylindrical reflector using Maslov’s method, Journal of Electromagnetic Waves and Appl., Vol. 22, 385-397, 2008.
2. M. A. Fiaz, A. Aziz, A. Ghaffar, and Q. A. Naqvi, High frequency expressions for the field in the caustic region of a PEMC Gregorian reflector using Maslov’s method, Progress in electromagnetics research, PIER Vol. 81, 135- 148, 2008.
3. M. A. Fiaz, B. Masood, and Q. A. Naqvi, Reflection from perfect electromagnetic conductor (PEMC) boundary placed in chiral medium, Journal of Electromagnetic Waves and Appl., Vol. 22, 1607-1614, 2008.
4. M. A. Fiaz, F. Frezza, L. Pajewski, C. Ponti, and G. Schettini, Scattering by a cylinder buried under a slightly rough surface: the Cylindrical-Wave Approach, IEEE Transactions Antennas and Propagation, Vol. 60, No. 6, 2834- 2842, 2012.
5. M. A. Fiaz, F. Frezza, L. Pajewski, C. Ponti, and G. Schettini, Asymptotic solution for the scattered field by cylindrical objects buried beneath a slightly rough surface, Near Surface Geophysics, Vol. 11, No. 2, 177-183, 2013.
6. M. A. Fiaz, F. Frezza, C. Ponti and G. Schettini, Electromagnetic scattering by a circular cylinder buried below a slightly rough Gaussian surface, Journal of Opt. Soc. Am. A., Vol. 31, No. 1, 26-34, 2014.
7. M. A. Fiaz, and M. A. Ashraf, Scattering of two-dimensional field from a PEMC cylinder buried beneath slightly rough surface, Journal of Electromagnetic Waves and Appl., 28, No. 4, 470-484, 2014.
8. M. Akhtar, Nazir. A. Naz, M. A. Fiaz, and Q. A. Naqvi, Scattering from a topological insulator cylinder buried in a semi-infinite medium, Journal of Modern optics, Vol. 61, No. 9, 697–702, 2014.
9. M. A. Fiaz and M. A. Ashraf, On the investigation of scattered field from coated PEC cylinder buried beneath slightly rough surface, International Journal of Electromagnetics and Mechanics, Vol. 47, 83-93, 2015.
10. M. A. Fiaz and M. A. Ashraf, Scattering from a topological insulator cylinder buried below a slightly rough surface, Journal of Modern optics, Vol. 62, No. 5, 340-347, 2015.
11. M. A. Fiaz, F. Frezza, L. Pajewski, C. Ponti and G. Schettini, Spectral domain solution to the electromagnetic scattering of a two-dimensional beam by cylinders buried below a flat interface, Near Surface Geophysics, Vol.13,
219-225, 2015.
12. S. Iqbal, M. A. Fiaz, and M. A. Ashraf, Scattering from a DNG coated PEMC cylinder buried beneath a sinusoidal/flat surface, International journal of Electronics and Communication (AEU), Vol. 70, 58-63, 2016.
13. M. Kamran, M. A. Fiaz, and M. A. Ashraf, Use of chiral coating to reduce RCS of PEC cylinder buried beneath a sinusoidal surface, Optik-International Journal for Light and Electron Optics, Vol. 127, 1546-1552, 2016.
14. M. Ahmed, M. A. Fiaz, and M. A. Ashraf, Investigation of RCS dependence on chirality for achiral cylinder buried below slightly rough surface, International Journal of Electronics and Communications (AEU), Vol. 70
(5), 629-635, 2016.
15. M. A. Fiaz and M. A. Ashraf, Scattering from PEMC rough surface using small perturbation Method, Waves in Random and Complex Media, Vol. 27, NO. 1, 15–27, 2017.
16. M. Asghar, M. N. S. Qureshi, M. Akhtar, M. A. Fiaz and M. A. Ashraf, Scattering from anisotropic plasma coated PEMC cylinder buried beneath a slightly rough surface, Journal of Modern optics, Vol. 64, No. 2, 101- 110, 2017.
17. M. Abbas, A. A. Rizvi, M. A. Fiaz and Q. A. Naqvi, Scattering of electromagnetic plane wave from a low contrast circular cylinder buried in non-integer dimensional half space, Journal of Electromagnetic Waves and Appl., Vol. 31, No. 3, 263-283, 2017.
18. Y. Munawar, M. A. Ashraf, Q. A. Naqvi, M. A. Fiaz, Two dimensional Green’s function for planar grounded dielectric layer in non-integer dimensional space, Optik – International Journal for Light and Electron optics, Vol. 140, 610-618, 2017.
19. M. Akhtar, M.A. Ashraf and M. A. Fiaz, Gaussian beam scattering from a DNG chiral coated PEMC cylinder buried below slightly rough surface, Journal of Electromagnetic Waves and Appl., Vol. 31, NO. 9, 912–926, 2017.
20. Q. A. Naqvi and M. A. Fiaz, Electromagnetic behavior of a planar interface of non-integer dimensional spaces, Journal of Electromagnetic Waves and Appl., Vol. 31, No. 16, 1625-1637, 2017.
21. M. A. Fiaz, M. A. Ashraf and A. A. Rizvi, Average scattered field from a random PEC cylinder buried below a slightly rough surface, Waves in Random and Complex Media, Vol. 28, No. 1, 60-75, 2018.
22. S. Batool and Q. A. Naqvi and M. A. Fiaz, Scattering from a cylindrical obstacle deeply buried beneath a planar non-integer dimensional dielectric slab using Kobayashi potential method, Optik-International Journal for Light and Electron optics., Vol. 153, 95-108, 2018.
23. H. A. Qureshi, M. A. Fiaz and M. A. Ashraf, Scattering from a PEC slightly rough surface in Chiral media, Advances in Materials Science and Engineering, Vol. 2018, 1-7, 2018.
24. M. A. Fiaz and Q A Naqvi, Two dimensional Green’s function for a half space geometry due to two different non-integer dimensional spaces, Progress in Electromagnetics Research, Vol. 66, 119-126, 2018.
25. N. Bhatti, Q. A. Naqvi and M. A. Fiaz, Analysis of reflection and transmission from a NID-interface/NIDdielectric interface in the presence of losses, Optik, Vol. 168, 873-883, 2018.
26. S. Batool, Q. A. Naqvi and M. A. Fiaz, Use of fractional operator to define intermediate zones in electromagnetics via Dirichlet Green’s function, Optik, Vol. 169, 172-179, 2018.
27. N. Bhatti, Q. A. Naqvi and M. A. Fiaz, Analysis of reflection and transmission from a planar NID-dispersive slab, Optik, Vol. 172, 278-294, 2018.
28. Z. Ahmad, Q. A. Naqvi and M. A. Fiaz , Propagation of transverse electric mode in a non-integer dimensional dielectric slab waveguide, Optik, Vol. 172, 177-185, 2018.
29. M. A. Fiaz, Investigating the reduction of cross polarized Gaussian beam scattering from a PEMC buried cylinder coated with topological insulator, Applied optics, Vol. 57, 7830-7836, 2018.
30. T. Fatima, M. A. Fiaz and M. Faryad, On the plane wave scattering from a circular cylinder with core or coating made of ENZ and DNZ mediums, Journal of Physics Communications, Vol. 2, 115025,1-15, 2018.
31. F. Masood and M. A. Fiaz, Evaluation of average cross-polarized scattered field from a PEMC cylinder of the random radius with uniform/normal distribution, IET Microwaves, Antennas and Propagation Vol. 13, No. 6, 804-812, 2019.
32. M. A. Fiaz, Scattering from a fractal–fractal rough interface using perturbation theory, Optik, Vol. 178, 14-24, 2019.
33. A. Ahmad and M. A. Fiaz, Scattered field from a PEMC cylinder buried below rough interface using extended boundary condition method, Optik, Vol. 193, 162572, (1-14), 2019.
34. Y. Munawar, M. A. Ashraf, Q. A. Naqvi and M. A. Fiaz, Radiations from line source buried beneath a non-integer dimensional planar dielectric slab, Optik 183, 7-16, 2019
35. A. Ahmad and M. A. Fiaz, Near zone scattering and extinction properties of a left handed material cylinder buried in a semi-infinite medium with rough interface, Journal of Modern Optics, Vol. 66 , No.12, 1358-1368, 2019.
36. M. A. Fiaz, A. Ahmad and M. A. Ashraf, Perturbation method to study scattering from a dielectric-chiral rough interface, Waves in Random and Complex Media, DOI: 10.1080/17455030.2019.1623432, 2019.
37. N. Qadeer, N. Bhatti, Q. A. Naqvi and M. A. Fiaz, Use of Kobayashi potential method and Lorentz–Drude model to study scattering from a PEC strip buried below a lossy dispersive NID dielectric-magnetic slab, Applied Mathematics and Computation 362, 124573, 2019.
38. N. Andlib, M. S. Hanif and M. A. Fiaz, Scattered field from a dielectric-topological insulator rough interface using perturbation theory, Optics communications, DOI: 10.1016/j.optcom.2019.124958, 2019.
39. F. Masood, M. A. Ashraf and M. A. Fiaz, On relating the perturbation theory and random cylinder generation to study scattered field, Physical communication, 2020.
40. A. Khalid, A. Ahmad, and M. A. Fiaz, Scattered field from a single/double negative grounded slab with rough interface, Optik, 2020.
41. S. Hanif and M. A. Fiaz, Effect of surface states on scattering from a slab made of topological insulator material with rough interface, Journal of Electromagnetic Waves and Appl., 2020.
42. S. Rehman and M. A. Fiaz, M. A. Ashraf, Scattering from a grounded chiral slab with rough interface using perturbation theory, Journal of Electromagnetic Waves and Appl., 2020.
43. M. Akhtar and M. A. Fiaz and M. A. Ashraf, On using the complex conjugate material as coating to observe scattering from a PEMC cylinder buried below a sinusoidal slightly rough surface, Optik., 2020.
44. F. Masood, M. A. Fiaz , M. A. Ashraf, On applying the perturbation theory for the evaluation of near zone scattering properties of a perturbed PEMC cylinder, optik - international journal for light and electron optics, Vol. 243,166844, pp. 1-15, 2021.
45. A. Rehman, M. A. Fiaz · M. Faryad, Analysis of the scattering of surface plasmon polariton waves from a perfectly conducting circular cylinder, Plasmonics, Vol. 17, pp. 361-370, 2022.
46. F Mumtaz, M Roman, B Zhang, LG Abbas, MA Ashraf, MA Fiaz, Y Dai, and J. Huang, A simple optical fiber SPR sensor with ultra-high sensitivity for dual-parameter measurement, IEEE Photonics Journal, Vol. 14, No. 5, 2022.

C1- M. A. Fiaz, L. Pajewski, C. Ponti, G. Schettini and F. Frezza,“Scattering by  a circular cylinder buried beneath a rough surface” XIII International Conference on Ground Penetrating Radar, Lecce, Italy, 21-25 June 2010.

C2- M. A. Fiaz, F. Frezza, L. Pajewski, C. Ponti and G. Schettini,“Scattering by a Dielectric Cylinder Buried under a Rough Surface by the CWA Method” XVIII  RINEM,  Benevento,  Italy, 6th September 2010.

C3- M. A. Fiaz, F.Frezza, L. Pajewski, C. Ponti, G. Schettini, and N. Tedeschi,“ Recent advances in the Cylindrical Wave Approach for electromagnetic scattering by subsurface targets”, European Geosciences Union General Assembly 2011 (EGU2011), Vienna, Austria, 03 - 08 April 2011.

C4- M. A. Fiaz, L. Pajewski, C. Ponti, G. Schettini and F. Frezza,“Scattering by cylindrical targets buried in a ground with rough interface”, 6th International Workshop on Advanced Ground. Penetrating Radar 2011, Aachen, Germany, 22-24 June, 2011.

C5- M. A. Fiaz, L. Pajewski, C. Ponti, G. Schettini and F. Frezza,“On the scattering by buried objects”, International Conference on Network-Based Information Systems, Tirana, Albania, 7-9 September 2011.

C6- M. A. Fiaz, C. Ponti, and G. Schettini,“ On the scattering by a cylindrical object below a rough surface with the CWA”, IEEE International Conference on numerical electromagnetic modelling and optimization for RF, microwave and terahertz applications, Pavia, Italy, 14-16 May 2014.

C7- Nauman Ali Qureshi , M. A. Fiaz Detection of irregular object using angle of arrival estimation,
19th International Conference on Frontiers of Information Technology (FIT 2022).

  • Electromagnetic scattering from a meta-material cylinder buried below a slightly rough surface funded by Higher Education Commission of Pakistan having amount Rs. 0.5 Million.
  • Detection of buried objects using angle of arrival estimation and sub array statistical approach, funded
    by Quaid-i-Azam University Islamabad, 2017-2018, Rs. 0.1 million.
  •  Effect of perturbation on near zone scattered field from a PEMC cylinder, funded by Quaid-i-Azam University Islamabad, 2019-2020, Rs. 0.125 million.
  •  Effect of roughness in the realization of electromagnetic boundary conditions with uniaxial material, funded by Quaid-i-Azam University Islamabad, 2019-2020, Rs. 0.04 million.

Quaid-i-Azam University Islamabad, 45320, Pakistan.
Tel: +92-51 9064 0000, Email:webmaster@qau.edu.pk