Dr. Elsayed Esam M. Khaled

Dean and Professor
Department of Electrical Engineering, Faculty of Engineering, Assiut University, Assiut, Egypt

Highest Degree
Ph.D. in Electrical Engineering from Clarkson University, USA

My URL
https://livedna.org/20.29061

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Area of Interest:

Engineering
Electrical Engineering
Laser Engineering
Microwave Propagation
Antennas

Selected Publications

  1. Ghattas, A.S.W., A.A.R. Saad and E.E.M. Khaled, 2020. Compact patch antenna array for 60 GHz millimeter-wave broadband applications. Wireless Personal Commun., 114: 2821-2839.
    CrossRef  |  Direct Link  |  

  2. Atef, A., M. Atef, E.E.M. Khaled and M. Abbas, 2020. CMOS transimpedance amplifiers for biomedical applications: A comparative study. IEEE Circuits Syst. Mag., 20: 12-31.
    CrossRef  |  Direct Link  |  

  3. Ibrahim, H.L.S. and E.E.M. Khaled, 2018. Multiple scattering of a focused laser beam by a cluster consisting of nonconcentric encapsulated particles. J. Quant. Spectrosc. Radiat. Transfer, 219: 255-261.
    CrossRef  |  Direct Link  |  

  4. Atef, A., M. Atef, M. Abbas and E.E.M. Khaled and G. Wang, 2018. Fully integrated wide dynamic range optical receiver for near infrared spectroscopy. Microelectron. J., 85: 92-97.
    CrossRef  |  Direct Link  |  

  5. Ibrahim, H.L.S., T. Wriedt and E.E.M. Khaled, 2016. Light scattering by a cluster consisting of homogeneous axisymmetric particles illuminated with an arbitrarily focused electromagnetic Gaussian beam. J. Quant. Spectrosc. Radiative Transfer, 173: 83-91.
    CrossRef  |  Direct Link  |  

  6. Saad, A.A.R., M.M.M. Ali and E.E.M. Khaled, 2014. Implementation and justification of a triple frequency‐notched UWB proximity‐fed antenna with shunt stubs. Microwave Optical Technol. Lett., 56: 646-654.
    CrossRef  |  Direct Link  |  

  7. Ibrahim, H.L.S. and E.E.M. Khaled, 2014. Light scattering from a cluster consists of dielectric nonconcentric encapsulation particles. Int. J. Electron. Commun. Eng. Technol., 5: 82-94.

  8. Ghattas, A.S.W. and E.E.M. Khaled, 2014. A compact proximity-fed quad band-notched ultra-wideband patch antenna. Int. J. Electron. Commun. Eng. Technol., 5: 43-51.
    Direct Link  |  

  9. Saad, A.A.R., M.M.M. Ali and E.E.M. Khaled, 2013. Prediction formulas for a notched frequency response of a printed ultra-wideband antenna loaded with notching resonators. J. Eng., 2013: 83-85.
    CrossRef  |  Direct Link  |  

  10. Saad, A.A.R., M.M.M. Ali and E.E.M. Khaled, 2013. An integrated 3G/bluetooth and UWB antenna with a band-notched feature. J. Electromagn. Waves Appl., 27: 2430-2441.
    CrossRef  |  Direct Link  |  

  11. Saad, A.A.R., D.A. Salem and E.E.M. Khaled, 2013. Band-notched UWB annular slot antenna with enhanced bandwidth by using EBG via holes. Int. J. Commun., 1: 67-74.

  12. Louka, H.I. and E.E.M. Khaled, 2013. Light scattering from a cluster consists of different axisymmetric objects. Int. J. Adv. Res. Eng. Technol., 4: 203-215.
    Direct Link  |  

  13. Li, X., L. Yan, W. Pan and B. Luo, 2013. A compact printed quadruple band-notched UWB antenna. Int. J. Antennas Propag., Vol. 2013. 10.1155/2013/956898.
    CrossRef  |  Direct Link  |  

  14. Ghattas, A.S.W. and E.E.M. Khaled, 2013. A design and an equivalent circuit of a quad band-notched ultra-wide band patch antenna. Int. J. Electron. Commun. Eng., 2: 139-148.
    Direct Link  |  

  15. Ali, M.M.M., A.A.R. Saad and E.E.M. 2013. A design of miniaturized ultra-wideband printed slot antenna with 3.5/5.5 GHz dual band-notched characteristics: Analysis and implementation. Prog. Electromagnet. Res. B, 52: 37-56.
    CrossRef  |  Direct Link  |  

  16. Saad, A.A.R., D.A. Salem and E.E.M. Khaled, 2012. 5.5 GHz notched ultra-wideband printed monopole antenna characterized by electromagnetic band gap structures. Int. J. Electron. Commun. Eng., 1: 1-12.

  17. Mamdouh, M. and E.E.M. Khaled, 2012. A compact ultra-wide band microstrip slotted antenna with dual band notched. Sci. J. Eng., 40: 1733-1745.

  18. Khaled, E.E.M., A.A.R. Saad and D.M. Salem, 2012. A proximity-fed annular slot antenna with different a band-notch manipulations for ultra-wide band applications. Prog. Electromagnet. Res. B, 37: 289-306.
    CrossRef  |  

  19. Khaled, E.E.M. and M.E.M. Aly, 2011. Scattering of a focused gaussian beam by an axisymmetric particle with a nonconcentric spherical core. J. Physica Scripta, Phys. Scr., 83: 025101-025107.

  20. Khaled, E.E.M., 2009. Scattering of a focused Gaussian beam by a dielectric coated spheroidal particle. J. Eng. Sci., 37: 1169-1179.
    Direct Link  |  

  21. Khaled, E.E.M., 2009. Multi-wideband compact patch antenna with seven-segment slots. J. Eng. Sci., 37: 1125-1134.
    Direct Link  |  

  22. Khaled, E.E.M. and H.L. Ibrahim, 2009. Scattered and internal field intensities of a homogeneous dielectric spheroidal object illuminated with an arbitrary focused off-axis electromagnetic beam. Sci. J. Eng., 37: 1009-1021.

  23. Khaled, E.E.M. and H.L. Ibrahim, 2009. Absorption and axial ratio effects on the scattering intensities of a spheroidal particle illuminated with a plane wave or off-axis Gaussian beam. Sci. J. Eng., 2009: 999-1008.

  24. Khaled, E.E.M. and A.A. Saad, 2009. A multi-wideband stacked patch antenna with parasitic resonators and switched slots. Sci. J. Eng., 37: 943-954.
    Direct Link  |  

  25. Khaled, E.E.M. and A.A. Saad, 2008. A multi-wideband compact microstrip patch antenna based on slot matching. J. Progr. Electromagnet. Res., C, 4: 169-177.

  26. Khaled, E.E.M., 1998. Scattered of arbitrary shaped electromagnetic waves by stratified media: A model for noninvasive hyperthermia therapy. J. Faculty Eng., Assiut Univ., 26: 159-170.

  27. Lankers, M., E.E.M. Khaled, J. Popp, R. Roessling, H. Stahl and W. Kiefer, 1996. Determination of size changes of optically trapped gas bubbles by elastic light scattering. J. Applied Opt., 36: 1638-1643.
    Direct Link  |  

  28. Khaled, E.E.M. and A.M. Elhasan, 1996. Temporal behavior of short optical pulses scattered by small particles. J. Phys. Scr., 54: 525-529.
    CrossRef  |  Direct Link  |  

  29. Khaled, E.E.M., S.C. Hill and P.W. Barber, 1994. Light scattering by a coated sphere illuminated with a Gaussian beam. J. Applied Opt., 33: 3308-3331..
    CrossRef  |  Direct Link  |  

  30. Khaled, E.E.M., S.C. Hill and P.W. Barber, 1994. Internal electric energy in a spherical particle illuminated with a plane wave or off-axis Gaussian beam. J. Applied Opt., 33: 524-532.
    CrossRef  |  Direct Link  |  

  31. Khaled, E.E.M., D.Q. Chowdhury, S.C. Hill and P.W. Barber, 1994. Internal and scattered time-dependent intensity of a dielectric sphere illuminated with a Gaussian pulse in space and time. J. Opt. Soc. Am., 11: 2065-2071.

  32. Khaled, E.E.M., S.C. Hill and P.W. Barber, 1993. Scattered and internal intensity of a sphere illuminated with a Gaussian beam. IEEE Trans. Antenna Propag., 41: 295-303.

  33. Khaled, E.E.M., S.C. Hill and P.W. Barber and D.Q. Chowdhury, 1992. Near-resonance excitation of dielectric spheres with plane waves and off-axis Gaussian beams. 31: 1166-1168. Appl. Opt., 31: 1166-1169.
    CrossRef  |  Direct Link  |  
Member since June, 2019