Gerald Harris Rosen


Gerald Rosen is an American mathematical scientist with over 280 published contributions in leading international scientific journals from 1958 to the present, in the areas of theoretical physics, mathematical biology, and aeronautical engineering. Rosen is currently the M. R. Wehr Professor Emeritus at Drexel University, in Philadelphia, Pennsylvania, United States.

Education

At Mt. Vernon's High School, he earned varsity letters in track and football as a sprinter. He graduated first in the Class of 1951. Subsequently, at Princeton University, he majored in Engineering-Physics, winning the Sophomore Math Contest, the Whiton Engineering-Physics Scholarship, the Guggenheim Jet Propulsion Scholarship, the Alton Prize, and a 3-year National Science Foundation Pre-doctoral Fellowship. He graduated first in the Class of 1955 of 729 students.

Career

At Princeton University, Rosen received the degrees B.S.E. in 1955, M.A. in 1956, and PhD in 1958 with a thesis entitled "Feynman Quantization of General Relativity Theory" with John Archibald Wheeler as his principal advisor.
He was an NSF postdoctoral fellow in 1959 at the Institute for Theoretical Physics in Stockholm, Sweden, returning to the United States in 1960 to serve as a consultant to the Joint Chiefs of Staff. In 1962, as Principal Scientist at Martin-Marietta, he derived an equation, which is now known as Electrodynamic Tether. OML Theory has been independently rediscovered by other mathematical physicists more than 30 years later. Between 1963 and 1966, he did research at the Southwest Research Institute in San Antonio, Texas. Among the important research papers composed during this period was: "Particle-like Solutions to Nonlinear Scalar Wave Theories", Journal of Math. Phys., Vol. 6, p. 1269, which has been resurrected recently by Russian theoreticians; see publication 32 at Gerald Rosen's website.
In 1966, he accepted a tenured full professorship at Drexel University in Philadelphia where he is currently on the research faculty in Physics as the M. R. Wehr Professor Emeritus. His most important recent works pertain to the masses of leptons and quarks , and to dark energy and matter .