Biography:George C. Baldwin

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Short description: American physicist
George C. Baldwin
BornMay 5, 1917
Denver, Colorado
DiedJanuary 23, 2010 (age 92)
Albuquerque, New Mexico
NationalityAmerican
Alma materKalamazoo College
University of Illinois at Urbana–Champaign
Scientific career
FieldsAtomic and nuclear experimental and theoretical physics
InstitutionsGeneral Electric Research Laboratory
Argonne National Laboratory
Rensselaer Polytechnic Institute
Los Alamos National Laboratory
ThesisMeasurements on the Nuclear Photo-Effect at Energies Below 20 MeV (1943)
Doctoral advisorDonald William Kerst

George Curriden Baldwin (May 5, 1917 – January 23, 2010) was an American theoretical and experimental physicist. He was a professor of nuclear engineering at Rensselaer Polytechnic Institute and a scientist working at the General Electric Research Laboratory and at the Los Alamos National Laboratory. He wrote a book on Nonlinear Optics and authored or co-authored over 130 technical papers.[1]

Education and career

George C. Baldwin earned his B.S. degree in physics from Kalamazoo College in 1939 and his Ph.D. in physics from the University of Illinois at Urbana–Champaign in 1943.[2] His Ph.D. thesis was on the nuclear photo-effect; his thesis advisor was Donald William Kerst.[3]

Continuing at Illinois, he taught college-level physics in the Army Specialized Training Program during World War II. He joined General Electric Research Laboratory in Schenectady, New York, as a physicist working on industrial research and development (1944-1967). He directed the Argonaut Research Reactor facility at Argonne National Laboratory, conducting neutron measurements and developing operational procedures (1958-1959). He was a Professor of Nuclear Engineering at Rensselaer Polytechnic Institute in Troy, New York (1967-1977). He continued his research at the Los Alamos National Laboratory in Los Alamos, New Mexico (1977-1987).[2][4]

Scientific contributions

Baldwin's fields of research included photo-nuclear reactions with bremsstrahlung radiation from electron accelerators, resulting in the discovery of the giant dipole resonance; orbit dynamics of synchrotrons; nuclear reactor physics; electrical propulsion for space; low-energy electron scattering in gases; nonlinear optics; and investigation of the feasibility of a gamma-ray laser.

His early research involved perfecting GE's 100 MeV Betatron for use as an x-ray source. Using bremsstrahlung radiation from the betatron beam, he and G. S. Klaiber excited uranium nuclei and observed a prominent peak at about 20 MeV in the cross section for photons (1947), (1948), which was not anticipated by the nuclear physics community. This "giant dipole resonance" discovered by Baldwin and Klaiber was subsequently explained theoretically by Edward Teller and Maurice Goldhaber,[5] and others.[2]

Baldwin's research with low-energy electron scattering on noble gases extended the scattering cross-section data to very low energies, well under 1 eV (1967), a technically difficult task.[2]

His book "An Introduction to Nonlinear Optics" (1969) helped bridge the gap in knowledge between specialists in the field and engineers and technical managers involved with this new technology.[6]

Baldwin, along with GE colleagues, developed ideas for nuclear radiation analogues of the optical laser, now known as the gamma-ray laser, or Gamma-Ray Amplification by Stimulated Emission of Radiation (GRASER). He launched international efforts to define and quantify issues facing the development of this advanced idea, working with many academic colleagues, including R. V. Khokhlov and V. I. Gol'danskii of the USSR and J. C. Solem of Los Alamos, opening an entirely new field of physics and making bold, creative attempts to bring the concept to fruition (1963), (1965), (1975).

He authored an early bibliography of literature on the problem of developing gamma-ray lasers, covering the period 1917 through 1979 (1979).

Baldwin investigated methods for detecting nuclear stimulated emission, seeking to demonstrate coherent emission from nuclear states, but establishing that a number of innovative ideas were unworkable. He and his colleagues identified criteria necessary for the process of laser action at gamma-ray energies. He collaborated on theoretical issues, on experiments to demonstrate isomer separation by selective photoionization (1983), and on modeling of the kinetics of gamma-ray lasers.

Decades of his gamma-ray laser work, together with that of others, is assessed in a paper (1981) and a second assessment concentrates on later work on recoilless gamma-ray lasers (1997). These review papers contain an extensive list of references.

He collaborated with J. C. Solem on research on the use of x-ray microholography to image biological specimens (1982).

Personal life

Baldwin's 57-year marriage to his wife Winifred, who collaborated as copy editor and typist for many of his publications, produced three children and seven grandchildren, of these three obtained a college degree in physics. Baldwin was an avid amateur astronomer, grinding his own lenses and building his own telescopes; fisherman; self-taught pianist, entertaining friends by playing by ear; and historical researcher.[4] One of Baldwin's notable accomplishments was locating an inscription left by the Dominguez-Escalante expedition of 1776, discovered originally in 1884 by his father on a surveying expedition in northern Arizona. Baldwin organized the 1995/1996 Museum of New Mexico expeditions that found the Escalante inscription and documented this in the Journal of the Southwest (1999).

Publications

Books

Cited articles

Honors and awards

Patents

References

  1. "Google Scholar - George C. Baldwin". https://scholar.google.com/citations?user=oohy3jcAAAAJ&hl=en. 
  2. 2.0 2.1 2.2 2.3 Block, R. C.; Solem, J. C.; Terhune, J. H. (2013). "Obituary of George Baldwin". Physics Today. doi:10.1063/PT.4.1870. 
  3. "Physics Dept. PhDs through 2006 Alphabetical order". Physics Department, University of Illinois at Urbana–Champaign. http://research.physics.illinois.edu/Publications/Theses/PhDsThrough2006.htm. 
  4. 4.0 4.1 "Obituary for Baldwin". Albuquerque Journal. February 7, 2010. http://obits.abqjournal.com/obits/show/202914. Retrieved 2016-07-01. 
  5. Goldhaber, M.; Teller, E. (1948-11-01). "On nuclear dipole vibrations". Physical Review 74 (9): 1046. doi:10.1103/physrev.74.1046. Bibcode1948PhRv...74.1046G. 
  6. Baldwin, G. C. (1969). Front Matter, Forward, - An Introduction to Nonlinear Optics. Springer Science & Business Media. doi:10.1007/978-1-4613-4615-9. ISBN 978-0-306-20004-5. 
  7. Kleinman, David A. (December 1970). "Review of An Introduction to Nonlinear Optics by George C. Baldwin". Physics Today 23 (12): 54–55. doi:10.1063/1.3021873. Bibcode1970PhT....23l..54B. 
  8. "APS Fellow Archive". APS. https://www.aps.org/programs/honors/fellowships/archive-all.cfm. 
  9. "Distinguished Achievement Award". Kalamazoo College. 1987. https://www.kzoo.edu/alumni/awards-nominations/distinguished-achievement-award/.