Resume

• 2001

  Doctor of Philosophy - PhD

  Experimental High Energy Nuclear & Particle Physics

  Wayne State University

• 1995

  Arabic

  English

  Excellence Teaching Award

  Wayne State University

  M.Sc

  physics; Polymer Physics

  Suez Canal University

• 1985

  Bachelor's degree

  Solid State Physics

  University of Benghazi (Garyounis)

  Algebra-based introductory Electrodynamics (undergraduate

  pre-medical students)

  Introduction to Relativity (graduate & undergraduate

  Physics & Astronomy students)

  Physics for Science and Engineering I&II

  Calculus-based (undergraduate

  Engineering students)

  Particles & Nuclei (graduate

  physics & Astronomy students)

  Wayne State University

  Ph.D. Certificate

  Teaching Excellence Award

• Signal Processing

  C++

  Electromagnetics

  Theory

  Science

  Labview

  Programming

  Simulations

  Matlab

  Optimizations

  Particle Physics

  LaTeX

  Chemistry

  C

  Characterization

  Microsoft Excel

  Circuit Design

  Statistics

  Algorithms

  Mathematica

  Almost 200 Publications

  Hamed

  Ahmed M.

  Wayne State University

  University of Mississippi

  Brookhaven National Laboratory

  State University of New York

  Suez-Canal University

  Texas A&M University

  American University in Cairo

  Higher Colleges of Technology

  University of Benghazi (Garyounis)

  Bryan/College Station

  Texas Area

  Involved in experimental high energy nuclear physics with the STAR collaboration at Brookhaven National Laboratory.

  Postdoc Research Associate

  Visiting Assistant Professor & Affiliated Researcher

  Texas A&M University

  Brookhaven National laboratory

  Upton

  New York

  The primary physics task of STAR is to study the formation and characteristics of the quark-gluon plasma (QGP)

  a state of matter believed to exist at sufficiently high energy densities. Detecting and understanding the QGP allows us to understand better the universe in the moments after the Big Bang

  where the symmetries (and lack of symmetries) of our surroundings were put into motion.\n\nUnlike other physics experiments where a theoretical idea can be tested directly by a single measurement

  STAR must make use of a variety of simultaneous studies in order to draw strong conclusions about the QGP. This is due both to the complexity of the system formed in the high-energy nuclear collision and the unexplored landscape of the physics we study. STAR therefore consists of several types of detectors

  each specializing in detecting certain types of particles or characterizing their motion. These detectors work together in an advanced data acquisition and subsequent physics analysis that allows final statements to be made about the collision.

  Researcher

  Brookhaven National Laboratory

  Suez-Canal

  Ismailia

  Egypt

  Graduate Research Assistant

  Suez-Canal University

  Oxford

  MS

  USA

  Visiting Professor & Adjunct Professor

  University of Mississippi

  Ruwais

  Faculty

  Higher Colleges of Technology

  Cairo

  Egypt

  Assistant Professor

  American University in Cairo

  Benghazi

  Libya

  Full Time Faculty

  Lecturer

  University of Benghazi (Garyounis)

  Detroit

  MI

  Teaching undergraduate students basic courses of physics e.g.

  Calculus-based and Algebra-based physics I && II

  Conceptual Physics for non-major science. I also taught many chapters of classical electrodynamics

  and Advanced classical mechanics for the graduate students.

  Full time instructor during summer 2005

  Teaching Assistant

  Reserach Assistant

  Ph.D. student

  Wayne State University

  Oneonta

  Visiting Professor

  State University of New York