Hisham Kadhum received his PhD degree in the field of communication and networks engineering from UPM. His research interests are in areas of laser diodes, optical fiber sensors
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مدرس
كلية الهندسة
البصرة
دكتوراه
38 سنة
07716417529
أتصالات و هندسة الشبكات
البصرة
متزوج
هندسة الكهرباء

Optical fiber Laser, Nonlinear effects in semiconductor diode lasers, optimization design and mathematics model

1 Narrow-Spectral-Linewidth, High-Output-Power Operation at 1.55 μm of Fiber Grating Fabry-Perot Laser diode Journal on Electronics and Electrical Engineering 2009
2 Relative Intensity Noise Reduction by Optimizing Fiber Grating Fabry-Perot Laser Parameters IEEE Journal of Quantum Electronics 2012
3 Improving the characteristics of the modulation response for fiber Bragg grating Fabry-Perot lasers by optimizing model parameters Optics and Laser Technology 2012
4 Comment on: “Theoretical calculation of turn-on delay time of VCSEL and effect of carriers recombination” [Opt. & Laser Technol. 39 (2007) 997–1001], Optics and Laser Technology 2012
5 Characterizations of phase noise in single-mode fiber grating Fabry-Perot laser Journal of Modern Optics 2012
6 Characterization of Small-Signal Intensity Modulation of Single-Mode Fiber grating Fabry-Perot Laser Source Optical Review 2012
7 Effect of Temperature and External Optical Feedback on Intensity and Phase Noise Characteristics in Single-Mode Fiber Grating Fabry-Perot Laser 3rd International Conference on Photonics 2012
8 Linewidth characteristics of un-cooled fiber grating Fabry-Perot laser controlled by the external optical feedback Optik 2013
9 Characterization of Turn-On Time Delay in a Fiber Grating Fabry-Perot Lasers IEEE Photonics Journal 2013
10 Characterization of Transient Response of Fiber Grating Fabry-Perot Lasers IEEE Photonics Journal 2013
11 Linewidth Optimization in Fiber Grating Fabry-Perot Laser Journal of Optical Engineering 2013
12 Frequency Modulation Response due to the Intensity Modulation of a Fiber Grating Fabry-Perot Lasers Journal of Modern Optics 2014
13 Optimizing the External Optical Cavity Parameters for Performance improvement of a Fiber Grating Fabry-Perot Laser Optical Review 2015
14 Numerical Analysis of Thermal Dependence of the Spectral Response of Polymer Optical Fiber Bragg Grating Iraq J. Electrical and Electronic Engineering 2016
15 A Numerical Analysis for Optimizing the Gratings Length and Coupling Coefficient for High Reflectivity and Low Cavity Loss in Fiber Grating Fabry-Perot Laser Model
Open Physics Journal 2016
16 Numerical Analysis of the Effect of Temperature and External Optical Feedback variation on the Output Characteristics of External Cavity Semiconductor Laser Based Fiber Bragg Gratings Open Access Library Journal 2016
17 Turn_On Time Reduction in VCSELs by optimizing laser parameters
Iraq J. Electrical and Electronic Engineering 2016
18 Design Methodology for Reducing RIN Level in DFB Lasers
Iraq J. Electrical and Electronic Engineering 2016

Turn_On Time Reduction in VCSELs by optimizing laser parameters
Iraq J. Electrical and Electronic Engineering 2016
Design Methodology for Reducing RIN Level in DFB Lasers
Iraq J. Electrical and Electronic Engineering 2016

A- Patent
Patent Title: “Compact Fiber Bragg Grating Fabry-Perot Laser source” Malaysia, No. PI 2011001281, March 2011.

B- Book Publishing
1- Book Title: External Cavity Semiconductor Laser based Fiber Bragg Grating for Dense Wavelength Division Systems, Lambert Academic Publishing, Germen, April 2015.
2- Book Title: Polymer Optical Fiber Bragg Gratings Technology: Spectral and Tuning Characteristics, Lambert Academic Publishing, Germen, Oct. 2016.

1. Thomas Calculus (I & II).
2. Engineering Analysis.
3. Theory of Electronic Circuits.
4. Electric Circuit Analysis (I).
5. Electric Circuit Analysis (II).
6. Electronic Circuits Analysis (I).
7. Electronic Circuits Analysis (II).
8. Communication Systems.
9. Communications Theory.
10. Analogue and Digital Circuits.
11. Digital Communication.
12. Optical fiber Communication.
13. Satellite Communication.
14. Wireless and Mobile Communication.
15. Microwave Engineering.
16. Digital Signal Processing