Hostname: page-component-848d4c4894-v5vhk Total loading time: 0 Render date: 2024-06-22T11:01:23.934Z Has data issue: false hasContentIssue false
  • English
  • Français

44. Commission des Observations Astronomiques Au-Dehors de L’Atmosphere Terrestre

Published online by Cambridge University Press:  16 November 2021

L. Goldberg ,
A. G. Massevitch ,
J. E. Blamont ,
H. E. Butler ,
H. Kienle ,
P. Swings ,
H. C. van de Hulst ,
Boneff ,
Bosman-Crespin  and
(A. J.) Deutsch
...Show all authors
L. Goldberg
Affiliation:
Harvard College Observatory Cambridge 38 Massachusetts, U.S.A.
A. G. Massevitch
Affiliation:
Astronomical Council, U.S.S.R. Academy of Sciences B. Gruzinskaja 10 Moscow, U.S.S.R.

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.

Of the many important developments in space astronomy during the past three years perhaps the most dramatic was the voyage of the Mariner II which passed less than 35 000 km from the surface of the planet Venus on 14 December 1962 and from which valuable measurements were made of the mass and magnetic field of Venus of the structure of its atmosphere and of conditions in the interplanetary medium. A second event of great importance to solar physics was the successful launching in March 1962 of the first of NASA’s Orbiting Solar Observatories’ the first satellite to be especially designed as a stabilized platform for solar observation. Six additional satellites in this series are planned between 1964 and 1966. Striking advances in the range and quality of rocket solar spectra have also been achieved. Soft X-ray spectra have been photographed to a short-wave limit of 13·8Å and the resolving power at longer wavelengths has been improved by as much as a factor of 10.

Type
Reports of Commissions
Information
Transactions of the International Astronomical Union , Volume 12 , Issue 1 , 1965 , pp. 727 - 751
Copyright
Copyright © International Astronomical Union 1976 1965 

References

Bibliography

Review Articles and Proceedings of Symposia and Conferences

1. Space Research II, Ed. van de Hulst, H.C., de Jager, C., Moore, A. F., North-Holland Publ. Co., Amsterdam, 1961.Google Scholar
2. Space Research III, Ed. Priester, W., North Holland Publ. Co., Amsterdam, 1963.Google Scholar
3. Space Age Astronomy, Ed. Deutsch, A. J., Klemperer, W.B., Academic Press, New York, 1962.Google Scholar
4. Proceedings First International Conference on Vacuum Ultra-violet Radiation Physics, J.Q.S.R.T., 2, 315, 1962.Google Scholar
5. Friedman, H. Ultra-violet and X-rays from the Sun, Ann. Rev. Astr. Astrophys., 1, 59, 1963.Google Scholar
6. Pagel, B. E. J. Ultra-violet Emission from the Sun, Planet. and Space Sci., II, 333, 1963.Google Scholar
7. Shklovsky, I. S. Ultra-violet Radiation and Soft X-rays of the Sun, Usp. Fiz. Nauk., 75, 351, 1961. Translation: Soviet Phys. Uspekhi, 4, 812, 1962.Google Scholar
8. Tousey, R. The Extreme Ultra-violet Spectrum of the Sun, Space Sci. Rev., 11, 3, 1963.Google Scholar
9. Proceedings of the NASA-University Conference on the Science and Technology of Space Exploration, Nov. 1-3, 1962, 1 and 2, NASA SP-11.Google Scholar
10. A Review of Space Research, Report of Iowa Summer Study, NAS-NRC 1079, Wash. D.C. 1962.Google Scholar
11. Dolder, F. P., Bartoe, O. E., Mercure, R.C. Jr., Gablehouse, R. H., Lindsay, J. C. The Orbiting Solar Observatory Spacecraft, Space Res., 3, Ed. Priester, W. North-Holland Publ. Co., Amsterdam, 1963.Google Scholar
12. Hempfling, G. L. Scanning Mechanism for a Satellite-Borne X-ray Spectrometer, NASA Tech. Note D-1097, 1962.Google Scholar
13. Liller, W. The Harvard Solar Satellite Project, J.Q.S.R.T., 2, 519, 1962.Google Scholar
14. Parkinson, W. H., Reeves, E. M. A Far Ultra-violet Spectrometer-Spectroheliometer for the OSO-B Satellite, paper presented at 115th meeting AAS, Wash. D.C., Dec. 1963.Google Scholar
15. Purcell, J. D., Koomen, M. J. Coronagraph with Improved Scattered Light Properties, J.O.S.A., 52, 596, 1962.Google Scholar
16. Leavitt, C. P. High Energy Gamma-Ray Satellite Experiment. IRE Trans. on Nuclear Sci. NS-9, no. 3, 400, 1962.Google Scholar
17. Frost, K. J., Rothe, E. D. A Detector for Low Energy Gamma-Ray Astronomy Experiments, NASA Tech. Note D-1693, 1963; Goddard Technical Abstracts 1, no. 2, no, 1963.Google Scholar
18. McKinley, H. R. Ultra-violet Rocket Spectrophotometer. J.O.S.A., 53, 518, 1963.Google Scholar
19. Ziemer, R., Kupperian, J. E. Jr., The Mission of the Orbiting Astronomical Observatory, Observatory Generation of Satellites NASA SP-30, 45, 1963.Google Scholar
20. Scott, W. H. Jr., The Engineering Design of the Orbiting Astronomical Observatory, Observatory Generation of Satellites. NASA SP-30, 53, 1963.Google Scholar
21. Hallock, H. B. Optics in the Orbiting Astronomical Observatory, Appl. Optics 1, 155, 1962: Prediction of the Response of Optical Spacecraft Control Devices to Stars of Various Classes and Magnitudes. J.O.S.A., 52, 1313, 1962.Google Scholar
22. Davis, R. J. Project Celescope. Smithson. Inst. Astrophys. Obs. Res. Space Sci., Special Report no. 110, 1962.Google Scholar
23. Davis, R. J., Rustgi, O. P. Ultraviolet Instrumentation for Celescope—An Astrophysical Reconnaissance Satellite. Appl. Optics, 1, 131, 1962.Google Scholar
24. Davis, R. J., Godfredsen, E. A. Optimum Resolving Power for an Ultra-violet Space Telescope. Planet. and Space Sci., 5, 207, 1961.Google Scholar
25. Ludwig, G. H. The Orbiting Geophysical Observatory. Space Sci. Rev., 2, 175, 1963.Google Scholar
26. Scull, W. E. Mission of the Orbiting Geophysical Observatories, Observatory Generation of Satellites. NASA SP-30, 1, 1963.Google Scholar
27. Gleghorn, G. E. Design of the Orbiting Geophysical Observatory. NASA SP-30, 11, 1963.Google Scholar
28. Pounds, K. A., Willmore, A. P. Instrumentation of Satellite UK1 for Obtaining Low Resolution Solar X-Ray Spectra, Space Res. 3, Ed. Priester, W., North-Holland Publ. Co., Amsterdam, 1963, p. 1195.Google Scholar
29. Lindsay, J.C. Mission of the Advanced Orbiting Solar Observatory, Observatory Generation of Satellites, NASA SP-30, 25, 1963.Google Scholar
30. Cervenka, A. J. One Approach to the Engineering Design of the Advanced Orbiting Solar Observatory, Observatory Generation of Satellites. NASA SP-30, 31, 1963.Google Scholar
31. Gehrels, T., Teska, T. M. The Wavelength Dependence of Polarization. Appl. Optics., 2, 67, 1963.Google Scholar
32. Teska, T. M., Pellicori, S. F., Roland, E. H. Astronomical Instrumentation for Project Polariscope. A. J., 68, 295, 1963.Google Scholar
33. Pellicori, S. F. Appl. Optics, 3, 361, 1964.Google Scholar
34. Newkirk, G. A., Bohlin, D. Reduction of Scattered Light in the Coronagraph Appl. Optics, 2, 131, 1963; Scattered Light in an Externally Occulted Coronagraph. Appl. Optics, Letter to Editor, 3, 543, 1964.Google Scholar
35. Lines, A. W. Some Technical Possibilities for Astronomical Satellites. Space Sci. Rev., 1, 781, 1963.Google Scholar
36. Swings, P. Possible Contributions of Space Experiments to Cometary Physics. Smithson. Inst. Astrophys. Obs., Res. Space Sci., Special Report no. 111, 1962.Google Scholar
37. Jennison, R. C. Proposed Satellite Techniques for Performing a High Resolution Survey of the Radio Sky at Medium Wavelengths. J. Brit. Inst. Radio Engs., 22, 205, 1961 = Astr. Contr. Univ. Manchester 11: Jodrell Bank Repr. no. 253.Google Scholar
38. Haselgrove, C.B., Haselgrove, J., Jennison, R. C. Ray Paths from the Cosmic Radio Source to a Satellite in Orbit. Proc. R. Soc. Lond., A. 261, 423, 1961.Google Scholar
38. bis. Biermann, L., Lüst, R., Lüst, Rh., Schmidt, H. U. Zur Untersuchung des Interplanetaren Mediums mit Hilfe künstlich eingebrachter Ionenwolken, Z. Ap., 53, 226, 1961.Google Scholar
38. ter. Rabben, H. H., Müller, G. Untersuchungen mit der HF-Plasma-Resonanzsonde an einem Cäsium-Kontaktionisation-Plasma, VI. Intern. Conf. on Ionization Phen. in Gases, Paris, 1963.Google Scholar
39. Namioka, T. Grating Theories and Their Applications to Grating Instruments for Vacuum Ultra-violet Spectroscopy. J.Q.S.R.T., 2, 697, 1962.Google Scholar
40. Tousey, R. Space Spectroscopy at U.S. Naval Research Laboratory—Photographic Techniques. J.Q.S.R.T., 2, 571, 1962.Google Scholar
41. Detwiler, C. R., Purcell, J. D. Echelle Spectrograph for Extreme Ultra-violet Line Profiles. J.O.S.A., 52, 597, 1962.Google Scholar
42. Gairett, D. L. Michels, D. J., Purcell, J. D., Tousey, R. High-Resolution Spectrograph for Solar-Rocket Spectroscopy. J.O.S.A., 52, 597, 1962.Google Scholar
43. Smith, R., Heroux, L., Manson, J. E. Proportional Counter Spectrometer for Solar X-Rays Between 1-10A, Instrumentation for Geophysics and Astrophysics. AFCRL-62-1105, no. 23, 1962.Google Scholar
44. Bruns, A. V., Prokofiev, V. K. Measurement of the Solar Far Ultra-violet Radiation of Helium, Iskuss. Sputniki Zemli, 11, 15, 1961.Google Scholar
45. Shuba, Yu. A., Tyutikov, A. M., Sorokin, O. M. Photocathodes for Solar Short-Wave Radiation Investigation. Iskuss. Sputniki Zemli, 10, 55, 1961; ibid., 11, 87, 1961.Google Scholar
46. Vasil’ev, I. G., Sharov, A. I. Solar Tracking Head. Iskuss. Sputniki Zemli, 11, 87, 1961.Google Scholar
47. McBride, W. R. Optical Materials for Transmission Filters in the Middle Ultra-violet. J.O.S.A., 53, 519, 1963.Google Scholar
48. Childs, C.B. Broad Band Ultra-violet Filters, J.O.S.A., 51, 895, 1961.Google Scholar
49. Bonnet, R. M., Courtès, G. Un filtre à bandes passantes multiples et réglables destiné à l’étude du continu solaire ultra-violet. [A Filter with Multiple Selective Pass Bands Intended for the Study of the Solar Ultra-violet Continuum]. Ann. Ap. 25, 367, 1962.Google Scholar
50. Schroeder, D. J. Interference Transmission Filters for the Far Ultra-violet J.O.S.A., 52, 1380, 1962.Google Scholar
51. Dunkelman, L. Ultra-violet Photodetectors, J.Q.S.R.T., 2, 533, 1962.Google Scholar
52. Dunkelman, L., Hennes, J. P., Fowler, W. B. Middle Ultra-violet Photo-electric Detection Techniques, Space Res. 3, Editor Priester, W., North-Holland Publ. Co., Amsterdam, 1963, p. 1174.Google Scholar
53. Lukirsky, A. P., Rumsh, M. A., Smirnov, L. A., Karpovich, I. A. X-Ray Monochromator for Ultrasoft Radiation with the Recording of the Absolute Number of Quanta, Measurement of the Photo-electric Yield for Ultrasoft X-Radiation, Measurement of the Photo-electric Yield of the External Photoeffect Under the Action of X-Rays in the Wavelength Range 1·54A-13·3A Opt. i Spektrosk. 9, 505, 511, 653, 1960;Google Scholar
Lukirsky, A. P. and Savenov, E. P. Monochromator with a Rotating Diffraction Grating for Ultrasoft X-Radiation, Opt. i Spektrosk, 13, 846, 1962.Google Scholar
54. Hunter, W. R. Extreme Ultra-violet Detection with the Bendix Channel Multiplier, Space Res., 3, Ed. Priester, W., North-Holland Publ. Co., Amsterdam, 1963, p. 1187.Google Scholar
55. Hennes, J. P., Scolnik, R., Stober, A. K. Characteristics of a Photoionization Chamber for the Vacuum Ultra-violet, J.O.S.A., 51, 1461, 1963.Google Scholar
56. Stober, A. K., Scolnik, R., Hennes, P. J. A Vacuum Ultra-violet Photoionization Detector, NASA Tech. Note D-1715, 1963.Google Scholar
57. Gerasimova, N. G., Yakovleva, A. V. Optiko-mekhanicheskaya prom. no. 8, 28, 1961.Google Scholar
58. Kulikov, S. A., Nikitin, V. G. Optiko-mekhanicheskaya prom. no. 12, 2, 1962.Google Scholar
59. Arkhangelskaya, V. A., Gerasimova, N. G., Krasnova, E. I., Rasumova, T. K., Yakovleva, A. V. Optiko-mekhanicheskaya prom. no. 12, 7, 1962.Google Scholar
60. Krasnova, E. N., Yakovleva, A. V. Optiko-mekhanicheskaya prom. no. 1, 21, 1963.Google Scholar
61. Kachalov, V. P., Yakovleva, A. V. The Ultra-violet Solar Spectrum in the Region 2470–3100Å, Izv. Krym. astrofiz. Obs., 2, 5, 1962.Google Scholar
62. Purcell, J. D., Garrett, D. L., Tousey, R. Solar Spectra from 3500 to 2200Å at 30 mÅ Resolution, Space Res. 3, Editor Priester, W., North-Holland Publ. Co., Amsterdam, 1963, p. 781.Google Scholar
63. Detwiler, C. R., Garrett, D. L., Purcell, J. D., Tousey, R., The Intensity Distribution in the Ultra-violet Solar Spectrum, Ann. Geophys. 17, 263, 1961.Google Scholar
64. Tousey, R., Purcell, J. D., Austin, W. E., Garrett, D. L., Widing, K. G. New Photographic Spectra of the Sun in the Extreme Ultra-violet, Space Res. 4, in press.Google Scholar
65. Goldberg, L., Reeves, E. M., Parkinson, W. H., Noyes, R. W. Preliminary Results from a Rocket Flight of the Harvard OSO-B Spectrometer, paper presented at 115th meeting AAS, Wash. D.C., Dec. 1963.Google Scholar
66. Hinteregger, H. E. Rocket Spectra of the Chromosphere, paper presented at Symposium on the Solar Spectrum, Utrecht, Aug. 1963.Google Scholar
67. Tousey, R., Austin, W. E., Purcell, J. D., Widing, K. G. Solar Emission Lines in the Region 168 to 1000Å, Space Res. 3, Editor Priester, W., North-Holland Publ. Co., Amsterdam, 1963, p. 772.Google Scholar
68. Austin, W. E., Purcell, J. D., Tousey, R. Solar Spectrum Photographed to 168A at Grazing Incidence without Stray Light J.O.S.A., 52, 597, 1962.Google Scholar
69. Hinteregger, H. E. Photoelectric Spectrophotometry of Solar Extreme Ultra-violet, J.Q.S.R.T., 2, 561, 1962.Google Scholar
70. Hall, L. A., Damon, K. R., Hinteregger, H. E. Solar Extreme Ultra-violet Photon Flux Measurements in the Upper Atmosphere of August 1961, Space Res. 3, Editor Priester, W., North-Holland Publ. Co., Amsterdam, 1963, p. 745.Google Scholar
71. Hinteregger, H. E., Hail, L. A., Schweizer, W. Solar XUV-Spectrum from 310 Å to 55. Å, Ap.J., 140, 319, 1964.Google Scholar
72. Austin, W. E., Purcell, J. D., Tousey, R., Widing, K. G. The Solar Spectrum Photographed to 33Å, paper presented at 115th meeting AAS, Wash. D.C., Dec. 1963.Google Scholar
72 bis. Fawcet, B.C., Gabriel, A. H., Griffin, W. G., Jones, B. B., Wilson, R. Observations of the Zeta Spectrum in the Wavelength Range 16Å-1400Å, Nature, 200, 1303, 1963.Google Scholar
72 ter. Elton, R.C., Kolb, A.C., Austin, W. E., Tousey, R., Widing, K. C. Origin of certain Solar Emission Lines between 170 and 220Å, Ap. J., 140, 390, 1964.Google Scholar
73. Purcell, J. D., Garrett, D. L., Tousey, R. Spectroheliograms in the Extreme Ultraviolet, paper presented at 115th meeting AAS, Wash. D.C., Dec. 1963.Google Scholar
74. Widing, K. G., Austin, W. E., Purcell, J. D., Tousey, R. Observed Resonance Lines of Coronal Ions and Ionization Temperatures, paper presented at 115th meeting AAS, Wash. D.C., Dec. 1963.Google Scholar
75. Lindsay, J. C. Scientific Results of the First Orbiting Solar Observatory, Amer. Geophys. Un. Trans., 44, 722, 1963.Google Scholar
76. Neupert, W. M., Behring, W. E. Solar Observations with a Soft X-ray Spectrometer J.Q.S.R.T., 2, 527, 1963.Google Scholar
77. Lindsay, J. C., Neupert, W. M., Behring, W. E. The Solar Spectrum from 50 to 400Å, Space Res. 4, in press.Google Scholar
78. Neupert, W. M. Emission of Extreme Ultra-violet Radiation from Solar Centers of Activity, Space Res. 4, in press.Google Scholar
79. Shuba, Yu A., Tyutikov, A. M., Sorokin, O. M. Iskuss. Sputniki Zemli, [Artificial Earth Satellites], 10, 55, 1961.Google Scholar
80. Blake, R. L., Chubb, T. A., Friedman, H., Unzicker, A. E. The Solar Emission Line Spectrum from 1 to 25Å, paper presented at 115th meeting AAS, Wash. D.C., Dec. 1963.Google Scholar
81. Winckler, J. R., May, T.C., Masley, A. J. Observation of a Solar Bremsstrahlung Burst of 1926 U.T., August 11, 1960, J. geophys. Res., 66, 316, 1961.Google Scholar
82. Vette, J.I., Casal, F. G. High-Energy X-Rays During Solar Flares, Phys. Rev. Lett., 6, 334, 1961.Google Scholar
83. Anderson, K. A., Winckler, J. R. Solar Flare X-Ray Burst on 28 September 1961, Space Res. 3, Editor Priester, W., North-Holland Publ. Co. Amsterdam, 1963, p. 839. Solar Flare X-Ray Burst on September 28, 1961, J. geophys. Res., 67, 4103, 1962.Google Scholar
84. Chubb, T. A., Friedman, H., Kreplin, R. W. Solar X-Ray Spectra in the 2-20 keV Range, A. J., 68, 276, 1963; Spectrum of Solar X-Ray Emission from 2-20 keV During Sub-Flare Activity, Space Res. 4, in press.Google Scholar
85. Pounds, K. A. Solar X-Radiation in the Wavelength Band 3-18A, Space Res. 4, in press.Google Scholar
86. Pounds, K. A., Bowen, P. J. A Simple Rocket-Borne X-Radiation Monitor—Its Scope and Results of an Early Flight, M. N. RAS, 123, 348, 1962.Google Scholar
87. Kreplin, R. W., Chubb, T. A., Friedman, H. X-Ray and Lyman-α Emission from the Sun as Measured from the NRL SR-1 Satellite, J. geophys. Res., 67, 2231, 1962.Google Scholar
88. Chubb, T. A., Friedman, H., Kreplin, R. W., Nichols, W. A., Unzicker, A. E., Votaw, M. J. Results from the NRL Solar Radiation Satellite, Space Res. 2, Ed. van de Hulst, H. C., de Jager, C., Moore, A. F., North-Holland Publ. Co., Amsterdam, 1961, p. 617.Google Scholar
89. Acton, L. W., Chubb, T. A., Kreplin, R. W., Meekins, J. F. Observations of Solar X-Ray Emission in the 8 to 20A Band, J. geophys. Res., 68, 3335, 1963.Google Scholar
90. Maehlum, B., Frank, L. A., O’Brien, B. J. Solar X-Ray Observations by Injun-1, J. geophys. Res., 67, 3577, 1962.Google Scholar
91. White, W. A. Solar X-Rays: Slow Variations and Transient Events; Solar X-Ray Microfiares and Quiet Sun Radiation, Space Res. 4, in press.Google Scholar
92. Mandel’Shtam, S. L., Tindo, I. P. Voron’ko, Yu. K., Shurygin, A.I., Vasiľev, B. N. Study of X-Radiation from the Sun. I. Measurements by Geophysical Rockets, Iskuss. Sputniki Zemli, 10, 12, 1961.Google Scholar
93. Mandel’Shtam, S. L., Voron’ko, Yu. K., Tindo, I. P., Shurygin, A.I., Vasiľev, B. N. Investigations of X-Ray Radiation of the Sun During the Total Solar Eclipse of 1961, February 15, Dok. SSSR, 142, no. 1, 77, 1962.Google Scholar
94. Mandel’Shtam, S. L., Tindo, I. P., Voron’ko, Yu. K., Vasiľev, B. N., Shurygin, A. I. Study of Solar X-Rays. II. Measurements by Space Rockets, Iskuss. Sputniki Zemli, 11, 3, 1961.Google Scholar
95. Efremov, A.I., Podmoshensky, A. L., Efimov, O. N., Lebedev, A. A. A Study of the Short Wavelength Radiation of the Sun, Iskuss. Sputniki Zemli, 10, 3, 1961.Google Scholar
96. Efremov, A. I., Podmoshensky, A. L., Ivanov, M. A., Nikiforov, V. N., Efimov, O. N. Filter Apparatus for Investigating Solar Short-Wave Radiation, Iskuss. Sputniki Zemli, 10, 48, 1961.Google Scholar
97. Boggess, A. III., Ultra-violet Astronomical Photometry from Rockets, NASA Techn. Notes D-673, June 1962.Google Scholar
98. Byram, E. T., Chubb, T. A., Friedman, H. On the Absence of Nebular Glow Around Spica, Space Res. 4, in press; paper presented at 115th meeting AAS, Wash. D.C., Dec. 1963.Google Scholar
99. Stecher, T. P., Milligan, J. E. Stellar Spectrophotometry from Above the Atmosphere, Ap.J., 136, 1, 1962.Google Scholar
100. Gulledge, I. S., Packer, D. M. Ultra-violet Measurements of Objects of Astronomical Interest, A. J., 68, 537, 1963.Google Scholar
101. Underhill, A. B. Ultra-violet Emission from Hot Stars, Space Res. 3, Editor Priester, W., 1080, 1963; Contribution from the Dominion Astrophys. Obs., no. 80; Concerning the Interpretation of the Ultra-violet Radiation from B Stars, Space Sci. Rev., 1, 749, 1963.Google Scholar
102. Heddle, D. W. O. Observations in the Southern Hemisphere of Ultra-violet Light from Celestial Objects, Nature, Lond., 193, 861, 1962.Google Scholar
103. Alexander, J. D. H., Bowen, P. J., Heddle, D. W. O. Southern Hemisphere Observations of Ultra-violet Light from Celestial Objects, Space Res. 3, Ed. Priester, W., North-Holland Publ. Co., Amsterdam, 1963, 1068.Google Scholar
104. Chubb, T. A., Byram, E. T. Rocket Observations of the Far Ultra-violet Sky, Space Res. 3, Editor Priester, W., North-Holland Publ. Co., Amsterdam, 1963, p. 1046; Stellar Brightness Measurement at 1314and 1427 Å, Observation of the OI Twilight Glow, Ap. J., 138, 617, 1963.Google Scholar
105. Gaustad, J. E., Spitzer, L. Jr., The Far Ultra-violet Line Spectrum of a B2 Star, Ap.J., 134, 771, 1961.Google Scholar
106. Osterbrock, D. E. Expected Ultra-violet Emission Spectrum of a Gaseous Nebula, Planet. and Space Sci., 11, 621, 1963.Google Scholar
107. Nikolsky, G. M. Structure and Short-Wave Radiation of the Upper Layers of Stars. I. Continuous Radiation of Hydrogen and Helium, Astr. Zu., 40, 668, 1963.Google Scholar
108. Clark, G. W., Kraushaar, W. L. Results on Gamma-Ray Astronomy from Explorer XI, Space Res. 3, Editor Priester, W., North-Holland Publ. Co., Amsterdam, 1963, p. 1087.Google Scholar
109. Duthie, J. G., Hafner, E. M., Kaplon, M. F., Fazio, G. G. Gamma Rays at High Altitudes, Phys. Rev. Lett., 10, 364, 1963.Google Scholar
110. Cline, T. L. Search for High-Energy Cosmic Gamma Rays, Phys. Rev. Lett., 7, 109, 1961.Google Scholar
111. Arnold, J. R., Metzger, A. E., Anderson, E.C., Van Dilla, M. A. Gamma Rays in in Space, Ranger 3, J. geophys. Res., 67, 4878, 1962.Google Scholar
112. Strom, S. E., Strom, K. M. Interstellar Absorption Below 100A, P. A. S. P., 73, 43, 1961.Google Scholar
113. Giacconi, R., Gursky, H., Paolini, F. R., Rossi, B. B. Evidence for X-Rays from Sources Outside the Solar System, Phys. Rev. Lett., 9, 439, 1962.Google Scholar
114. Gursky, H., Giacconi, R., Paolini, F. R., Rossi, B. B. Further Evidence for the Existence of Galactic X-Rays, Phys. Rev. Lett., 11, 530, 1963.Google Scholar
115. Fisher, P.C., Meyerott, A. J. Stellar X-Ray Emission, I, Ap. J., 139, 123, 1964.Google Scholar
116. Brandt, J.C., Fisher, P. C. Stellar X-Ray Emission, II, August 1963, unpublished.Google Scholar
117. Fisher, P.C. Night Sky X-Ray Emission, paper presented at 115th meeting AAS, Washington, D.C., December 1963.Google Scholar
118. Greenstein, J. L. High Energy Phenomena in Stellar Astronomy, Space Age Astron., Editors Deutsch, A. J. and Klemperer, W. B., Acad. Press, New York, 1962, p. 214.Google Scholar
119. Schatzman, E. La Gamma Astronomie, Space Sci. Rev., 1, 774, 1963.Google Scholar
120. Pollack, J.B., Fazio, G. G. Production of π Mesons and Gamma Radiation in the Galaxy by Cosmic Rays, Phys. Rev., 131, 2684, 1963.Google Scholar
121. McVittie, G. C. Photon Density and the Gamma-Ray Flux at a Point in an Expanding Universe, Phys. Rev., 128, 2871, 1962.Google Scholar
122. Hoyle, F. X-Rays from Outside the Solar System, Ap.J., 137, 993, 1963.Google Scholar
123. Feiten, J. E., Morrison, P. Recoil Photons from Scattering of Starlight by Relativistic Electrons, Phys. Rev. Lett., 10, 453, 1963.Google Scholar
124. Milford, S. N. X-Rays from Collisions of Stars, A. J., 66, 49, 1961.Google Scholar
125. Clark, G. The Relation between Cosmic X-Rays and Gamma Rays, Nuov. Cim., in press.Google Scholar
126. Ginzburg, V. L., Syrovatskii, S. I. On Gamma Rays and Synchrotron Radiation of Galactic and Extra Galactic Origin, to be published.Google Scholar
127. Hayakawa, S., Matsuoka, M. Possible Mechanisms of Galactic X-Ray Emission, Space Res. 4, in press.Google Scholar
128. Gould, R. J., Burbidge, G. R. X-Rays from the Galactic Center, External Galaxies and the Inter-Galactic Medium, to be published.Google Scholar
129. Friedlander, M. W. Cosmic Electromagnetic Radiation, Nuov. Cim., in press.Google Scholar
130. Benediktov, E. A., Getmantsev, G. G., Ginzburg, V. L. Radio-Astronomical Investigations from Artificial Satellites and Cosmic Rockets, Artificial Earth Satellites (Consultants Bureau), 7 and 8, trans. 1, 1962; Original Iskuss. Sputniki Zemli, 7 and 8, 3, 1961.Google Scholar
131. Smith, F. G. Possibility of Observing Features of Galactic Radio Emission from a Satellite-Borne Radio Telescope M. N. RAS 122, 527, 1961.Google Scholar
132. Jennison, R. C. Proposed Satellite Techniques for Performing a High Resolution Survey of the Radio Sky at Medium Wavelengths, J. Brit. Inst. Radio Engin., 22, 205, 1961 = Astr. Contr. Univ. Manchester II—Jodrell Bank Repr. no. 953.Google Scholar
133. Chapman, J. H., Molozzi, A. R. Interpretation of Cosmic Noise Measurements at 3·8 Mc/s from Satellite 1960 η 1., Nature, Lond., 191, 480, 1961.Google Scholar
134. Haddock, F. T., Schulte, H. F., Walsh, D. Cosmic Radio Intensities at 1·2 and 2·0 Mc/sec Measured at an Altitude of 1700 Kilometers, A. J., 68, 75, 1963; Space Res. 4, in press.Google Scholar
135. Weil, H., Walsh, D. Trans. IRE Antennas and Propagation, to be published.Google Scholar
136. Lilley, A. E., Huguenin, G. R. Low-Frequency Cosmic Radio Emission, Space Res. 2, Ed. van de Hulst, H. C., North-Holland Publ. Co., 1961, p. 593.Google Scholar
137. Huguenin, G. R. Long Wavelength Radio Astronomy in Space, Dissertation, Harvard University, 1963.Google Scholar
138. Barath, F. T., Barrett, A. H., Copeland, J., Jones, D. E., Lilley, A. E. Preliminary Results of the Mariner II Microwave Radiometers, Science 139, 908, 1963; Mariner II Microwave Radiometer Experiments and Results, A. J., 69, 49, 1964.Google Scholar
139. Houghton, J. T., Hughes, N. D. P., Moss, T. S., Seeley, J. S. An Atlas of the Infra-red Solar Spectrum from 1 to 6·5μ Observed from a High-Altitude Aircraft, Phil. Trans. A, 254, 47, 1961.Google Scholar
140. Cialdea, R., Cimino, N., Fea, G. Photographs Taken from High Altitudes by Means of Balloons During the Total Solar Eclipse of 15 February 1961, Ann. Geofis. (Roma), 15, 79, 1962.Google Scholar
141. Kurt, V. G. An Investigation of the Spectrum of the Solar Corona in the Wavelength Region 7800-12000Å during the Total Solar Eclipse of February 15, 1961, Soviet Astr., 6, 349, 1962.Google Scholar
142. Poloskov, S. M., Mikirov, A. E. Electrophotometry of a Selected Region of Outer Solar Corona in the Visual Spectral Range During the Total Solar Eclipse on February 15, 1961, Space Res. 3, Ed. Priester, W., North-Holland Publ. Co., Amsterdam, 1963, p. 630.Google Scholar
143. Newkirk, G. A. Jr., Eddy, J. A. A Coronagraph above the Atmosphere, Sky and Telesc., 24, no. 2, 77, 1962; Daytime Sky Radiance from Forty to Eighty Thousand Feet, Nature, Lond., 194, 638, 1962.Google Scholar
144. Dollfus, A. Nouvelle Technique de Ballons Stratosphériques et Étude Directe de l’Origine de la Scintillation des Étoiles, C. R., 255, 148, 1962.Google Scholar
145. Snyder, C. W. Symposium on Mariner 2, Amer. Geophys. Un. Trans., 44, no. 1, 141, 1963.Google Scholar
146. Chase, S.C., Kaplan, L. D., Neugebauer, G. The Mariner 2 Infra-red Radiometer Experiment, J. geophys. Res., 68, 6157, 1963.Google Scholar
147. Danielson, R. E., Gaustad, J. E., Schwarzschild, M., Weaver, H. F., Woolf, N. J. Mars Observations from Stratoscope II, A. J., 69, 344, 1964.Google Scholar
Danielson, R. E., The First Flight of Stratoscope II, Am. Scient, 51, 375, 1963.Google Scholar
148. Dunkelman, L. Visual Observations of the Atmosphere From U.S. Manned Spacecraft in 1962, Space Res. 4, in press.Google Scholar
149. Link, F. On the Elevated Absorbing Layer Observed by Glenn During the Flight of Mercury-Atlas 6, Studia geophy. et geod., 7, 38, 1963; Space Res. 4, in press.Google Scholar
1. Huruhata, M. et al. The Fourth International Symposium on Space Technology and Science, Tokyo, 459, 1962.Google Scholar
. Yoshida, S., Nagashima, K., Kawabata, K., Morimoto, M. Propagation of Solar Particles Deduced from Measurements with Explorer VII, Space Res., 3, Ed. Priester, W., North-Holland Publ. Co., Amsterdam, 608. 1963.Google Scholar
1. Blagonravov, A. A. COSPAR Inf. Bull. no. 16, 120, December 1963. “Investigations of the Upper Atmosphere and Outer Space Made in the U.S.S.R. in 1962.”Google Scholar
2. Fetisov, E. P.Solar Coronal Emission in the Soft X-Ray RegionKosmicheskie Issledovaniya no. 2, 1, 209, 1963.Google Scholar
3. Gerasimov, F. M., Naumov, S. S., Denisov, L. M.Diffraction Gratings Concentrating Radiation in the Vacuum Ultraviolet and X-Ray Regions of the SpectrumOpt. i Spectrosk. no. 1, 16, 139, 1964.Google Scholar
4. Gringauz, K. I. Space Res., 2, 539, North-Holland, 1962. “Some Results of Experiments in Interplanetary Space by Means of Charged Particle Traps on Soviet Space Probes.”Google Scholar
5. Gringauz, K. I., Bezrukikh, V. V., Balandina, S. M., Ozerov, V. D., Rybchinsky, R. E. Space Res., 3, 602, North-Holland, Amsterdam, 1963. “Direct Observations of Solar Plasma Streams at a Distance of ~ 1 900 000 km. from the Earth on February 17, 1961, and Simultaneous Observations of the Geomagnetic Field.”Google Scholar
6. Ivanova, A. V.Photoionization of Optical Electrons in the Ions N V and O VIOpt. i Spectrosk. no. 6, 16, 925, 1964.Google Scholar
7. Korolev, F. A., Odintsov, V. I., Fursova, E. V.Determination of the Transition Probability for the Neon Resonance Line at 736ÅOpt. i Spectrosk. no. 4, 16, 555, 1964.Google Scholar
8. Lukirskii, A. P., Savinov, E. P., Ershov, O. A., Shepelev, Yu. F.Reflection Coefficients of Radiation in the Wavelength Range from 23·6 to 113 Å for a Number of Elements and Substances and the Determination of the Refraction Index and Absorption CoefficientOpt. i Spectrosk. no. 2, 16, 310, 1964.Google Scholar
9. Lukirskii, A. P., Zimkina, T. M., Brytov, I. A.Study of X-Ray Spectra in the Wavelength Region Greater than 15 Å Using a Spectrometer with a Gold-Covered Diffraction GratingOpt. i Spectrosk. no. 4, 16, 688, 1964.Google Scholar
10. Nikol’skiy, G. M., Shilova, N. S.Solar Radiation in the Spectral Region λ ≤ 1100Å,” Geomagn. i Aeron, no. 5, 3, 793, 1963.Google Scholar
11. Nikol’skiy, G. M., Shilova, N. S.Solar Radiation in the Short-Wave Lines of the Ions Fe X, Fe XIV, and Ca XV,” Geomagn. i Aeron., no. 3, 3, 431, 1962.Google Scholar
12. Sorokin, O. M.Photoelectric Recording of Radiation Below 1200 Å using Metallic Light FiltersOpt. i Spectrosk., no. 1, 16, 139, 1964.Google Scholar