McMaster University
Mohamed A. Naser Print E-mail

Post Doctoral Fellow

MNaser2011

Email: This e-mail address is being protected from spambots. You need JavaScript enabled to view it
Phone: 905 387 9711 ext. 67142
Office: Juravinski cancer center Level 4
Website:Unavailable
CV: Download

 

 

 

 

 

 

 


 

Research Interests

  • Developing and testing algorithms to be used for molecular imaging in small animals.
  • Theoretical modeling of quantum dot infrared photodetectors.

 

Recent Publications

  • M. A. Naser and M. S. Patterson, "Bioluminescence tomography using eigenvectors expansion and iterative solution for the optimized permissible source region," Biomedical Optics Express, 2, issue 11, 3179–3193 (2011). (view)  
  • M. A. Naser and M. S. Patterson, “Improved bioluminescence and fluorescence reconstruction algorithms using diffuse optical tomography, normalized data, and optimized selection of the permissible source region”  Biomedical Optics Express2, issue 1,  169 - 184 (2011). (view)
  • M. A. Naser and M. S. Patterson, "Algorithms for bioluminescence tomography incorporating anatomical information and reconstruction of tissue optical properties," Bimedical Optics Express, 1, issue 2, 512- 526 (2010).  (view)
  • M. A. Naser, M. J. Deen, and D. A. Thompson, "Photocurrent modeling and detectivity optimization in a resonant tunneling quantum dot infrared photodetector," IEEE Journal of Quantum Electronics, 46, Issue 6, 849 - 859 (2010). (view)
  • S. Tavakoli, M. A. Naser, D. A. Thompson, and M. J. Deen, “Experimental characterization and theoretical modeling of the strain effect on the evolution and inter-band transitions of InAs quantum dots grown on InxGa1-xAs (0.0 > x > 0.3) metamorphic pseudosubstrates on GaAs wafers,” Journal of Applied Physics, Vol. 106, # 063533, 8 pages (2009). (view)
  • M. A. Naser, M. J. Deen and D. A. Thompson, “Theoretical modeling of dark current in quantum dot infrared photodetectors using non-equilibrium Green's functions,” Journal of Applied Physics, Vol. 104, #014511, 11 pages (2008). (view)
  • M. A. Naser, M. J. Deen and D. A. Thompson, “Spectral function and responsivity of resonant tunneling and superlattice quantum dot infrared photodetectors using Green's function,” Journal of Applied Physics, Vol. 102, # 083108, 12 pages (2007). (view)
  • M. A. Naser, M. J. Deen and D. A. Thompson, “Spectral function of InAs/InGaAs quantum dots in a well detector using Green's function,Journal of Applied Physics, Vol. 100, #093102, 6 pages (2006). (view)

 

 

PhD Thesis

Theoretical modeling of quantum dot infrared photodetectors

http://digitalcommons.mcmaster.ca/dissertations/AAINR58304/ 

Courses Taught

EngineeringPhysics 2E04 Analog and Digital Circuits


?