Emanuel Kamber
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Emanuel Kamber, Ph. D. is a Physics professor at Western Michigan University and was the Secretary General of the Assyrian Universal Alliance. He was born in the small Assyrian and Kurdish village of Darbandokeh located in the Kurdistan Region of Iraq.
In 1983, Emanuel Kamber earned a Ph.D. and Doctors degree in physics from University of London in England. He studies and conducts experiments involving electron capture, ionization and excitation processes in low-velocity collisions among atoms, ions and molecules. Emanuel has published over 70 widely referenced papers in scientific journals and has presented more than 90 papers at National and International Conferences on Atomic Physics. He has been a research associate at the Royal Society Research Unit, University College of Swansea in the United Kingdom & Kansas State University, and a Visiting Professor at Kansas State University. He has mentored 4 master theses and 2 Ph.D. dissertations.[1] In February 2007, he unexpectingly resigned from his secretary general position in the Assyrian Universal Alliance. Kamber claimed it was personal reasons for the resignation. Some claim Kamber resigned because representatives of AUA along with Fawzi Hariri of KDP met with American Congresswoman Anna Eshoo, sending the message that Assyrians do not have the numbers to create an autonimous zone in the Nineveh plains.
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- WMU News: At the behest of the U.S. Department of State, Dr. Emanuel Kamber, a Western Michigan University professor of physics, has been traveling the world recently to help lay plans for a post-war Iraq.
- Zinda Magazine, 6 July 2005. Editorial: What Next For AUA?
- "Kurdish Autonomy Proposal Threatens Iraqi Territorial Integrity"
- "Exiles Lay Groundwork For An Iraq Transition"
- "Single-Electron Capture Processes in Slow Collisions of He2+ Ions with O2, NH3, N2, and CO2," O. Abu-Haija, E. Y. Kamber, S.M. Ferguson and N. Stolterfoht, Phys. Rev. A 72 042701 (2005)
- "Competition between dissociative and nondissociative single-electron capture in He2+ -O2 collisions," E.Y. Kamber, O. Abu-Haija, and S.M. Ferguson, Physical Review A, 65 (2002) 62717.