About

Hassan Ibrahim is a clinical professor at the Robert H. Smith School of Business, where he teaches courses in systems analysis and production management. His research interests focus on the management of technology, particularly the strategic applications of information systems to supply chain management. Dr. Ibrahim's work has been published by APICS's Production and Inventory Control Journal and Harvard Business School, and he serves on the editorial review board of the Journal of Operations Management. With a background that includes teaching at George Mason University and Marymount College, he has also worked for and consulted with industry leaders such as McDonnell Douglas, Phillips Electronics, and Siemens Medical Systems. His expertise encompasses systems analysis and design, data communications, and operations management, and he was nominated for the Outstanding Scholar of the Year Award in the Commonwealth of Virginia in 1996.

Research topics

• Physics
• Thermodynamics
• Composite material
• Engineering
• Materials science
• Mechanical engineering
• Chemistry
• Nuclear physics
• Particle physics
• Quantum mechanics
• Quantum electrodynamics
• Mechanics
• Optics

Selected publications

• Measurement of the Nucleon <mml:math xmlns:mml="http://www.w3.org/1998/Math/MathML" display="inline"><mml:msubsup><mml:mi>F</mml:mi><mml:mn>2</mml:mn><mml:mi>n</mml:mi></mml:msubsup><mml:mo>/</mml:mo><mml:msubsup><mml:mi>F</mml:mi><mml:mn>2</mml:mn><mml:mi>p</mml:mi></mml:msubsup></mml:math> Structure Function Ratio by the Jefferson Lab MARATHON Tritium/Helium-3 Deep Inelastic Scattering Experiment

  Physical Review Letters · 2022 · 48 citations

  • Physics
  • Nuclear physics
  • Particle physics

  The ratio of the nucleon F_{2} structure functions, F_{2}^{n}/F_{2}^{p}, is determined by the MARATHON experiment from measurements of deep inelastic scattering of electrons from ^{3}H and ^{3}He nuclei. The experiment was performed in the Hall A Facility of Jefferson Lab using two high-resolution spectrometers for electron detection, and a cryogenic target system which included a low-activity tritium cell. The data analysis used a novel technique exploiting the mirror symmetry of the two nuclei, which essentially eliminates many theoretical uncertainties in the extraction of the ratio. The results, which cover the Bjorken scaling variable range 0.19<x<0.83, represent a significant improvement compared to previous SLAC and Jefferson Lab measurements for the ratio. They are compared to recent theoretical calculations and empirical determinations of the F_{2}^{n}/F_{2}^{p} ratio.

  DOI

• Measurement of the generalized spin polarizabilities of the neutron in the low-Q2 region

  Nature Physics · 2021 · 17 citations

  • Physics
  • Nuclear physics
  • Particle physics
  PublisherOA PDFDOI

• Multi-objective optimization to enhance the performance of thermo-electric generator combined with heat pipe-heat sink under forced convection

  Energy · 2020 · 45 citations

  • Materials science
  • Thermodynamics
  • Mechanical engineering
  DOI

• Enhancing the performance of a thermo-electric generator through multi-objective optimisation of heat pipes-heat sink under natural convection

  Energy Conversion and Management · 2020 · 62 citations

  • Materials science
  • Mechanics
  • Thermodynamics
  DOI

Frequent coauthors

• B. Moffit

  138 shared

• V. Sulkosky

  University of Virginia

  136 shared

• R. Gilman

  Rutgers, The State University of New Jersey

  125 shared

• D. W. Higinbotham

  Thomas Jefferson National Accelerator Facility

  114 shared

• R. Michaels

  111 shared

• O. Hansen

  107 shared

• F. Garibaldi

  National Institute for Astrophysics

  106 shared

• T. Holmstrom

  100 shared

Education

• Ph.D, Physics

  Old Dominion University

  2006

Awards & honors

• Outstanding Scholar of the Year Award in the Commonwealth of…

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