Hostname: page-component-586b7cd67f-dlnhk Total loading time: 0 Render date: 2024-11-29T23:55:57.077Z Has data issue: false hasContentIssue false

Gordon Newkirk’s Contributions to Coronal Studies

Published online by Cambridge University Press:  14 August 2015

J. A. Eddy*
Affiliation:
Office for Interdisciplinary Earth Studies, University Corporation for Atmospheric Research, Box 3000, Boulder, Colorado 80307, USA

Extract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

Gordon Allen Newkirk, Jr. was born in West Orange, New Jersey June 12, 1928 and died in Boulder, Colorado December 21, 1985 at age 57. He was graduated from Harvard University in 1950 and in 1953 earned a Ph.D. in astrophysics from the University of Michigan. In 1955, after service in the Signal Corps of the U.S. Army he took a position at the High Altitude Observatory in 3oulder where he worked the remaining thirty years of his life. For 11 of those years (1968-1979) he was director of the observatory and associate director of the National Center for Atmospheric Research. He was also active as a teacher and from 1965 through 1985 was an adjoint professor at the University of Colorado. From 1972 through 1975 he served as Chairman of the Solar Physics Division of the American Astronomical Society and from 1976 through 1979 as President of Commission 10 (Solar Activity) of the International Astronomical Union.

Type
Joint Commission Meeting
Copyright
Copyright © Kluwer 1989

References

1. Newkirk, G.A. Jr. (1959) ‘A model of the electron corona with reference to radio observations’, in Bracewell, R.N., ed., Paris Symposium on Radio Astronomy, IAU Symposium No.9 and URSI Symposium No. I, Stanford Univ.Press, Palo Alto, pp. 149158.Google Scholar
2. Wlerick, G. and Axtell, J. (1957) ‘A new instrument for observing the electron corona’, Ap.J., 126, 253258.CrossRefGoogle Scholar
3. Newkirk, G. Jr. (1961) ‘The solar corona in active regions and the thermal origin of the slowly varying component of solar radio radiation’, Ap.J., 133, 9831013.CrossRefGoogle Scholar
4. Lyot, B. (1930) ‘La couronne solaire etudiee en dehors des eclipses’, C.R.Acad.Sci.Paris, 191, 834837.Google Scholar
5. Lyot, B. (1939) ‘A study of the solar corona and prominences without eclipses’, M.N.Roy.Astron.Soc, 99, 580595.Google Scholar
6. Newkirk, G.A. Jr. (1956) ‘Photometry of the solar aureole’, J.Opt.Soc.Am., 46, 10281037.CrossRefGoogle Scholar
7. Evans, J.W. (1948) ‘A photometer for measurement of sky brightness near the sun’, J.Opt.Soc.Am., 38, 10831085.CrossRefGoogle ScholarPubMed
8. Newkirk, G. Jr. (1967) ‘The optical environment of manned spacecraft’, Planet.SpaceSci., 15, 12671285.CrossRefGoogle Scholar
9. Schwarzschild, M. (1959) ‘Photographs of solar granulation taken from the stratosphere’, Ap.J., 130, 345363.CrossRefGoogle Scholar
10. Newkirk, G. A. and Eddy, J.A. (1962) ‘Daytime sky radiance from forty to eighty thousand feet’, Nature, 194, 638641.CrossRefGoogle Scholar
11. Newkirk, G. Jr. and Eddy, J.A. (1962) ‘A coronagraph above the atmosphere’, Sky and Telescope, 24, 7781.Google Scholar
12. Newkirk, G.A. Jr. and Eddy, J.A. (1963) ‘Influx of meteoric particles in the upper atmosphere of earth as determined from stratospheric coronagraph observations’, in Priester, W., ed., Space Research III, North Holland Pub. Co., Amsterdam, pp.143154.Google Scholar
13. Newkirk, G. Jr. and Eddy, J.A. (1964) ‘Light scattering by particles in the upper atmosphere’, J.Atmos.Sci., 21, 3560.2.0.CO;2>CrossRefGoogle Scholar
14. Newkirk, G. Jr. and Kroening, J. (1965) ‘Aerosols in the stratosphere: A comparison of techniques of estimating their concentration’, J.Atm.Sci., 22, 567570.2.0.CO;2>CrossRefGoogle Scholar
15. Newkirk, G. Jr. (1967) ‘Meteoric dust in the stratosphere as determined by optical scattering techniques’, Smithsonian Contributions to Astrophysics, I I, The Proceedings of a Symposium on Meteor Orbits and Dust, NASA, Washington D.C. and the Smithsonian Institution, 349358.Google Scholar
16. Newkirk, G. Jr. and Zirin, H. (1963) ‘Feasibility of a reflecting coronayraph’, Applied Optics, 2, 977978.Google Scholar
17. Newkirk, G. Jr. and Bohlin, D. (1963) ‘Reduction of scattered light in the coronagraph’, Applied Optics, 2, 131140.CrossRefGoogle Scholar
18. Newkirk, G. Jr. and Bohlin, D. (1964) ‘Scattered light in an externally occulted coronagraph’, Applied Optics, 3, 543544.CrossRefGoogle Scholar
19. Newkirk, G. Jr. and Bohlin, J.D. (1964) ‘The first flight of Coronascope II’, Sky and Telescope, 28, 1619.Google Scholar
20. Newkirk, G.A. Jr. and Bohlin, D. (1965) ‘Coronascope II observation of the white light corona from a stratospheric balloon’, Ann.d’Asrrophys., 28, 234238.Google Scholar
21. MacQueen, R.M., Gosling, J.T., Hildner, E., Munro, R.H., Newkirk, G. Jr., Poland, A.I., and Ross, C.L. (1974) ‘The High Altitude Observatory white light coronagraph’, Proceedings of the Society of Photo-Optical Instrumentation Engineers, Tucson, 44.Google Scholar
22. MacQueen, R.M., Eddy, J.A., Gosling, J.T., Hildner, E., Munro, R.H., Newkirk, G. Jr., Poland, A.I., and Ross, C.L. (1974) ‘Outer solar corona as observed from Skylab’, Ap.J., 187, L8588.CrossRefGoogle Scholar
23. Eddy, J.A. (1971) ‘The Schaeberle 40-f t eclipse camera of Lick Observatory’, Journal for the History of Astronomy, 2, 122.CrossRefGoogle Scholar
24. Newkirk, G. Jr. and Lacey, L. (1970) ‘The corona during the March 7 1970, eclipse,’ Nature, 226, 1098 only.CrossRefGoogle ScholarPubMed
25. Newkirk, G. Jr. (1967) ‘Structure of the solar corona,’ Ann.Rev.Astron.Ap., 5,213266.CrossRefGoogle Scholar
26. Newkirk, G., Altschuler, M.D. and Harvey, J. (1968) ‘Influence of magnetic fields on the structure of the solar corona’, in Kiepenheuer, K. O., ed., Structure and Development of Solar Active Regions, IAU Symposium 35, D. Reidel, Dordrecht, pp.379383.CrossRefGoogle Scholar
27. Altschuler, M.D. and Newkirk, G. Jr. (1969) ‘Magnetic fields and the structure of the solar corona I: Methods of calculating coronal fields’, Solar Phys., 9, 131149.CrossRefGoogle Scholar
28. Newkirk, G. Jr., Dupree, R.G. and Schmahl, E.J. (1970) ‘Magnetic fields and the structure of the solar corona II. Observations of the 12 November 1966 solar corona’, Solar Phys., 15, 1539.CrossRefGoogle Scholar
29. Newkirk, G. Jr. (1971) ‘Large scale magnetic fields and their consequences’, in Howard, R., ed., Solar Magnetic Fields, IAU Symposium 43, D. Reidel, Dordrecht, pp.547568.CrossRefGoogle Scholar
30. Newkirk, G. Jr. (1971) ‘Coronal magnetic fields’, in Macris, C.J., ed., Physics of the Solar Corona, D. Reidel, Dordrecht, 6687.Google Scholar
31. Trotter, D.E. and Newkirk, G. Jr. (1971) ‘Coronal magnetic field of the sun on 7 January 1969’, Solar Phys., 20, 372374.CrossRefGoogle Scholar
32. Altschuler, M.D., Newkirk, G. Jr., Trotter, D.E. and Howard, R. (1971) ‘Time evolution of the large-scale solar magnetic field’, in Howard, R., ed., Solar Magnetic Fields, IAU Symposium 43, D. Reidel, Dordrecht, pp.588594.CrossRefGoogle Scholar
33. Newkirk, G. Jr. (1972) ‘Coronal magnetic fields and the solar wind’, in Sonnet, C.P., ed., Solar Wind, Proceedings of the Asilomar Conference on the Solar Wind., NASA SP-308, Washington, pp.1129.Google Scholar
34. Altschuler, M.D., Trotter, D.E. and Newkirk, G. Jr. (1974) ‘The large-scale solar magnetic field’, Solar Phys., 39, 317.CrossRefGoogle Scholar
35. Altschuler, M.D., Trotter, D.E. and Newkirk, G. Jr. (1975) ‘Tabulation of the harmonic coefficients of the solar magnetic fields’, Solar Phys., 41, 225226.CrossRefGoogle Scholar
36. Newkirk, G. Jr. and Frazier, K. (1982) ‘The solar cycle’, Phys.Today, 35, 2534.CrossRefGoogle Scholar
37. Newkirk, G. Jr. (1982) ‘The nature of solar variability’, in Eddy, J. A., ed., Sun, Weather and Climate, National Research Council, National Academy of Sciences, pp.3347.Google Scholar
38. Newkirk, G. Jr. (1980) ‘Study of the Solar Cycle from Space: Solar Cycle and Dynamics Mission’, Final Report, NASA SCADM &#3, Washington.Google Scholar
39. Newkirk, G. Jr. (1980) ‘Solar variability on time scales of 105 years to 109.6 years’, in Pepin, R. O. Eddy, J. A., and Merrill, R. B., eds., The Ancient Sun, Pergamon, pp.293320.Google Scholar
40. Newkirk, G. Jr. (1983) ‘Variations in solar luminosity’, Ann.Rev.Astron. and Ap., 21, 429467.CrossRefGoogle Scholar
41. Newkirk, G. Jr. (1985) ‘What accelerator mass spectroscopy can do for solar physics’, in Nuclear Instrumentation and Methods, Third Internatl. Symposium on Accelerator Mass Spectroscopy, Zurich.Google Scholar
42. Newkirk, G. Jr. and Wentzel, D. (1978) ‘Rigidity-independent propagation of cosmic rays in the solar corona’, J.Geophys.Res., 83, 2009-2015.CrossRefGoogle Scholar
43. Newkirk, G. Jr., Hundhausen, A.J. and Pizzo, V. (1981) ‘Solar cycle modulation of galactic cosmic rays: speculation on the role of coronal transients’, J.Geophys.Res., 86, 53875396.CrossRefGoogle Scholar
44. Newkirk, G. Jr. and Lockwood, J.A. (1981) ‘Cosmic ray gradients in the heliosphere and particle drifts’, Geophys.Res.Lett., 8, 619622.CrossRefGoogle Scholar