Welcome Dr Maryam Karimi to Journal of eSciences.

Dr Maryam Karimi
Atomic Energy organization
of Iran, Laser and Optics Research School, NSTRI


Biography & Research Interest

Welcome Dr Maryam Karimi to Join the Editorial Board of Journal of eSciences.

EDUCATION

B.Sc., Physics, march, 1998 Department of physics, KNT University of Tehran, Iran Education Field: Solid State Thesis Title: “Analysis of thermoelectric effects and construction of thin layer thermocouple in vacuum Bi–Sb and measurement Peleter effects” Research Advisor: Dr. M. Jafary Graduated with GPA: 15.33/20.00

  • M.Sc., Physics, January 2001 Education Field: Atomic & molecule Department of Physics, Tarbiat Modarres University, Tehran, Iran. Thesis Title: “Design and Analysis of Rhodamine-B doped polymer optical fiber amplifiers” Research Advisor: Dr. M. K. Moravveg Farshi Graduated with GPA: 16.56/20.00
  • PHD., Physics, June 2010 Education Field: Optics Department of Physics, Razi University, Kermanshah, Iran. Thesis Title: “Characterization of Er Doped Fiber Lasers and Amplifiers” Research Advisor: Dr F. E. Seraji Graduated with GPA: 18.03/20.00
  • POSTDOC FELLOWSHIP., Electrical Eng, 2011-2012 Department of Electrical Engineering, Sharif University of Technology. 6 month Research Advisor: Professor Jawad A. Salehi

QUALIFICATIONS

Over Look to Numerical Analysis and Solving PDE or ODE Equations.

  • Good knowledge of semiconductor devices and equipments
  • Academic knowledge of lasers and their design.
  • Academic knowledge of crystallography and spectroscopy of crystals.
  • Good knowledge of optical fibers and Netwoks
  • Lasers Design
  • Design and Analyses of Optical Amplifiers (Er Doped Fiber Amplifier, Polymer Fiber Amplifiers, Raman Amplifiers)
  • Good Knowledge about Fiber Optics (Glass Fiber Optics and Polymer Fiber Optics)
  • Empirical Measurement of Fiber Optic Parameters (Return loss, Insertion Loss, Numerical Aperture, Core and Clad diameter, PMD, ….)
  • Empirical Measurement of Optical Connectors Parameters (Return loss, Insertion Loss, Physical Measurement of Connector Parts, …)
  • Empirical Measurement of Optical Fiber Amplifier And Lasers Parameters ( Gain, PMD, Return loss, Insertion Loss, …)

RESEARCH ACTIVITIES

Study and theoretical analysis of dye doped polymer optical fibers (As a part of M. S. thesis).

  • Numerical solution of time dependent rate equations in Rhodamine-B doped polymer optical fiber amplifiers (As a part of M. S. thesis).
  • Noise in optical amplifiers and simulation of noise figure in Rhodamine-B doped polymer optical fiber amplifiers (As a part of M. S. thesis).
  • Analysis and Simulation of polymer optical fiber amplifiers in Steady State (As a part of M. S. thesis).
  • Technology of dye doped polymer optical fiber amplifiers (As a part of M. S. thesis).
  • Loss (Intrinsic and connection) in polymer optical fibers (As a part of M. S. thesis and summer project in ITRC).
  • Conductive Polymers and Their Applications (Fall 2002 in ITRC).
  • Standard and Application of Polymer Optical Fibers (summer 2003 in ITRC)
  • Connectors and Splicers in polymer Optical Fibers (summer 2003 in ITRC).
  • Polymer Optical Finer Networks (summer 2003 in ITRC).
  • Polymer Optical Fiber Sensors (summer 2003 in ITRC).
  • Nonlinear Effects in Polymer Optical Fibers (Spring 2004 in ITRC).
  • Study and Design of the Polymer Optical Fiber with higher Nonlinear Effects (Spring 2004 in ITRC).
  • Nonlinear Optics (Spring 2004 in ITRC).
  • Dyes with Nonlinear Effects (Spring 2004 in ITRC).
  • Application of Nonlinear Polymers in Polymer Optical Devices (Spring 2004 in ITRC).
  • Fabrication of Thin Layer Thermocouple in Vacuum in Bi- Sb in K. N. Toosi University of Technology.
  • Return Loss In Holey Fibers (Empirical Activity)
  • Numerical Aperture Of Holey Fibers (Empirical Activity)
  • PMD of Optical Fiber Amplifiers (Empirical Activity)
  • FDTD Numerical Analysis

Certificate

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