Hostname: page-component-586b7cd67f-tf8b9 Total loading time: 0 Render date: 2024-11-30T12:34:05.213Z Has data issue: false hasContentIssue false

21. Commission de la Luminescence du Ciel

Published online by Cambridge University Press:  16 November 2021

Abstract

Image of the first page of this content. For PDF version, please use the ‘Save PDF’ preceeding this image.'
Type
Reports of Commissions
Copyright
Copyright © Academic Press 1965 

References

Bibliographie

A: Livres

I Bates, D. R., Ratcliffe, J. A. Physics of the Upper Atmosphere, New York, Academic Press, p. 219, 1960.Google Scholar
II Chamberlain, J. W. Physics of the Aurora and Airglow, New York, Academic Press, 1961.Google Scholar
III Khvostikov, I. A. Physics of Ozonosphere and Ionosphere, Publ. House: Acad. Sci. U.S.S.R., Moscow, 1963.Google Scholar
IV Yao, I. G. Observations of the Night Airglow during the International Geophysical Year and the International Geophysical Co-operation. Pergamon Press, 1962.Google Scholar
V Inst. Phys. Atlas of the Airglow Spectrum 3000-12400 Â; Atm. U.S.S.R. Acad. Sci. 1962.Google Scholar
VI Symp. Aéronomie UGGI, Copenhague, Juillet 1960. Ed. Nicolet, M., Paris, 1960.Google Scholar
VII Symp. UAI/UGGI no. 18: Theoretical Interpretation of Upper Atmosphere Emissions, Paris, Juin 1962. Bates, D.R., Ed., Pergamon Press, London, 1963.Google Scholar
1. Argemi, L., Barbier, D., Camman, G., Marsan, J., Huille, S., Morguleff, N. (Observations de l’arc intertropical nord en radiation 6300Å) C.R. Acad. Sci. Paris, 256, 2215, 1963.Google Scholar
2. Armstrong, E.B. The temperature in the atmosphere region emitting the nightglow OI 5577Â line and in regions above faint auroral arcs. J. atmos. terr. Phys., 13, 205, 1959.Google Scholar
3. Ballif, J. R., Venkateswaran, S. V. An explanation for the observed correlation between the hydroxyl and sodium emissions of the night sky. J. Atmos. Sci., 19, 426, 1962.Google Scholar
4. Ballif, J. R., Venkateswaran, S. V. A study of hydroxyl (OH) and sodium (Na) emissions from the night sky. Scient. Rep., Univ. Cal. Inst. of Geophysics and phnetary Physics, 1962.Google Scholar
5. Ballif, J. R., Venkateswaran, S. V. The sodium nightglow. J. Atmos. Sci., 20, 251, 1963.Google Scholar
6. Ballif, J. R., Venkateswaran, S. V. On the temporal variations of the OH nightglow. J. Atmos. Sci., 20, 1, 1963.Google Scholar
7. Barbier, D. L’arc auroral stable. Ann. Géophys., 16, 544, 1960.Google Scholar
8. Barbier, D. L’émission de la raie rouge du ciel nocturne et les propriétés de la couche F de l’ionosphère. C.R. Acad. Sci. Paris, 252, 3315, 1961.Google Scholar
9. Barbier, D. Les variations d’intensité de la raie 6300 Å de la lumière du Ciel Nocturne. Ann. Géophys., 17, 3, 1961.Google Scholar
10. Barbier, D. La raie rouge de l’oxygène dans la lumière du Ciel Nocturne. Studia geoph. et geod., 4, 350, 1960.Google Scholar
11. Barbier, D. Photométrie photoélectrique de la luminescence du ciel nocturne aux observatoires de Haute-Provence et de Tamanrasset. AGI. Participation française IVl , 35, 1961.Google Scholar
12. Barbier, D. Etude de la couche F d’après l’émission de la raie rouge du ciel nocturne. Planet, and Space Sci., 10, 29, 1963.Google Scholar
13. Barbier, D. Comparaison d’observations photométriques et ionosphériques de la couche F. C.R. Acad. Sci. Paris, 257, 2138, 1963.Google Scholar
14. Barbier, D. Nouvelles observations de la raie rouge du ciel nocturne en Afrique. Ann. Géophys., 20, 22, 1964.Google Scholar
15. Barbier, D. La luminescence atmosphérique. Proc. Symp. on the results of the IGY (Nat. Acad. Sci.) (to be published).Google Scholar
16. Barbier, D., Delsemme-Jehoulet, D. Résultats préliminaires de l’étude photométrique de la lumière du ciel nocturne par les stations françaises et belges pendant l’AGI. Ann. IGY, 11, 149, 1961.Google Scholar
17. Barbier, D., Fafiotte, M., Weill, G. Mission aérienne pour l’étude de l’aurore et du ciel nocturne dans les régions de latitudes élevées. Ann. Géophys., 18, 221, 1962.Google Scholar
18. Barbier, D., Glaume, J. La couche ionosphérique nocturne F dans la zone intertropicale et ses relations avec l’émission de la raie 6300 Å du ciel nocturne. Planet, and Space Sci., 9, 133, 1962.Google Scholar
19. Barbier, D., Roach, F. E., Steiger, W. R. The summer intensity variation of [OI] 6300Å in the tropics, J. Res. NBS, 66D, 145, 1962.Google Scholar
20. Barbier, D., Volot, J., Pélissier, J. Observations de la lumière du ciel nocturne aux 1les Kerguelen. Ann. Géophys., 19, 184, 1963.Google Scholar
21. Barbier, D., Weill, G., Daguillon, J., Marsan, J. L’émission de la raie rouge du ciel nocturne dans la zone intertropicale. C.R. Acad. Sci. Paris, 252, 304, 1961.Google Scholar
22. Barbier, D., Weill, G., Glaume, J. L’émission de la raie rouge du ciel nocturne en Afrique. Ann. Géophys., 17, 305, 1961.Google Scholar
23. Barth, C.A, Hildebrandt, A. F. The 5577Å airglow emission mechanism. J. Geophys. Res., 66, 985, 1961.Google Scholar
24. Berg, M. A., Shefov, N. N. OH emission and atmospheric 02 band λ 8645 Å. Sborník, no. 9, 46, 1962.Google Scholar
25. Berg, M. A., Shefov, N. N. Emission of the hydroxyl bands and of the (O, 1) 8645 Å atmospheric band of oxygen in the nightglow. Planet, and Space Sci., 9, 167, 1962.Google Scholar
26. Berg, M. A., Shefov, N. N. The hydroxyl emission with the several vibrational excitation. Sborník no. 10, 19, 1963.Google Scholar
27. Blamont, J. E., Donahue, T. M. L’émission atmosphérique des raies D du sodium observée pendant le jour. C.R. Acad. Sci. Paris, 251, 2750, 1960.Google Scholar
28. Blamont, J. E., Donahue, T. M. The dayglow of the sodium D lines. J. Geophys. Res., 66, 1407, 1960.Google Scholar
29. Brandt, J.C. Interplanetary gas. V. A Hydrogen cloud of terrestrial origin. Astrophys. J., 134. 394, 1961.Google Scholar
30. Brandt, J. C. Interplanetary gas. VI. On the diffuse extreme ultraviolet Helium radiation in the night and day sky. Astrophys. J., 134, 975, 1961.Google Scholar
31. Brandt, J. C. On the role of secondary scattering in Lyman α problem. Planet, and Space Sci., 9, 67, 1962.Google Scholar
32. Brandt, J. C. On the Lyman α problem and the geocoma hypothesis. Nature, Lond., 195. 894, 1962.Google Scholar
33. Brandt, J. C. On the interpretation of the night sky Lyman-α radiation and related phenomena. Space Res., 2, ed. Van de Hulst, H.C., Jager, C.de, and Moore, A.F., Amsterdam, North-Holland, p. 624, 1961.Google Scholar
34. Bullock, W. R., Hunten, D. M. Vertical distribution of sodium in the upper atmosphere. Can. jf. Phys. 39, 976, 1961.Google Scholar
35. Byram, E. T., Chubb, T. A., Friedman, H. Attempt to measure night helium glow. Evidence for metastable molecules in the night ionosphere. J. Geophys. Res., 66, 2095, 1961.Google Scholar
36. Carman, E. H., Gibson-Wilde, B.C., Kilfoyle, B. P., Coleman, W. M. Tropical twilight behaviour of the [Oi] 6300Å airglow at Townsville. Nature. Lond., 198, 1077, 1963.Google Scholar
37. Carman, E. H., Gibson-Wilde, B.C., Kilfoyle, B. P., Coleman, W. M. Behaviour of zenith [OI] 6300Å airglow at Townsville during high-altitude nuclear explosions. J. Geophys. Res., 68, 2855, 1963.Google Scholar
38. Carpenter, M. S., O’Keefe, J. A., III, Dunkelman, L. Visual observations of nightglow from manned spacecraft. Science, 138, 978, 1962.Google Scholar
39. Chamberlain, J. W. The energies in the spectra of the airglow and aurora. Ann. Geophys., 17, 90, 1961.Google Scholar
40. Chamberlain, J. W. The interpretation of ultra-violet spectra of planetary atmospheres and the near-infra-red C02 bands of Venus. In The Atmospheres of Mars and Venus (report by Space Science Board, prepared by Kellogg, W. and Sagan, C.), 1961, p. 147.Google Scholar
41. Chamberlain, J. W. Upper atmosphere of the planets. Astrophys. J., 136, 582, 1962.Google Scholar
42. Chamberlain, J. W. Dayglow spectra of the planets. J. Quant. Spectr. Rad. Transf., 2, 1963 (to be published).Google Scholar
43. Chamberlain, J. W. Planetary coronae and atmospheric evaporation. Planet, and Space Sci., 11, 901, 1963.Google Scholar
44. Chamberlain, J. W. The geocorona; an area neglected in the IGY program. Proc. Symp. on the Results of the IGY (nat. Acad. Sci.) (To be published).Google Scholar
45. Chamberlain, J. W. Airglow and the physics of upper atmospheres. Science (to be published).Google Scholar
46. Chamberlain, J. W., Sobouti, Y. Fluorescent scattering in planetary atmospheres. I. Basic theoretical considerations. Astrophys. J., 135, 925, 1962.Google Scholar
47. Chiplonkhar, N. W., Agashe, V. V. A simultaneous study of the λλ 5577, 5893 and 6300 emissions of the night airglow at Poona. Ann. Géophys., 17, 231, 1961.Google Scholar
48. Chiplonkhar, N. W., Kulkami, P. V., Agashe, V. V. Intensity and height variations of the λ 5577 emission layer at Poona. Bull. astr. Inst. Csl, 12, 18, 1961.Google Scholar
49. Chiplonkar, M. W. Kulkami, P. V. A preliminary note on the study of night airglow at Poona during the IGY. Ann. IGY. 11, 158, 1961.Google Scholar
50. Christophe-Glaume, J. Renforcement d’intensité de la raie verte de l’oxygène lié aux débuts brusques d’orages magnétiques. C.R. Acad. Sci. Paris, 256, 988, 1963.Google Scholar
51. Christophe-Glaume, J. L’émission de la raie verte de l’oxygène le long d’un mériden en Octobre 1962. C.R. Acad. Sci. Paris., 257, 210, 1963.Google Scholar
52. Christophe-Glaume, J. Emission de la raie verte de l’oxygène en fonction de la latitude. C.R. Acad. Sci. Paris, 257, 486, 1963.Google Scholar
53. Chubb, T. A., Byram, E. T. Rocket observation of the far ultra-violet sky. Space Res. 3. Ed. Priester, W., North-Holland Publ. Co. Amsterdam, p. 1046, 1963.Google Scholar
54. Chubb, T. A., Friedman, H., Kreplin, R. W., Mange, P. Lyman α radiation in the night sky. Mém. Soc. R. Sci. Liège, 4, pt. 1, 437, 1961.Google Scholar
55. Chuvaev, K. K. On the constituent separation of the night airglow. Astr. Zu., 38, 692, 1961.Google Scholar
56. Cole, K. D. Airglow and the South-Atlantic geomagnetic anomaly. J. Geophys. Res., 66, 3064, 1961.Google Scholar
56a. Dalgarno, A. Charged particles in the upper atmosphere. Ann. Géophys., 17, 16, 1961.Google Scholar
56b. Dalgarno, A. Vibrationally excited molecules in atmospheric reactions. Planet, and Space Sci., 10, 19, 1963.Google Scholar
57. Dandekar, B. S., Bhonsle, R. V. An experimental arrangement for scanning night airglow over the sky. J. sci. industr. Res. (India), 20B, 573, 1961.Google Scholar
58. Dandekar, B. S., Bhonsle, R. V., Ramanathan, K. R. Preliminary report on airglow observations at 5577Â made at Mt Abu in 1957-58. Ann. IGY, 11, 123, 1961.Google Scholar
59. Danziger, I. J. The 5577Å [OI] emission line of the airglow at Brisbane. Austr.J. Phys., 14. 304, 1961.Google Scholar
60. Davidson, T. W. Measurements of lunar time variations in the intensity of 5577Å airglow. Planet, and Space Sci., II, 1133, 1963.Google Scholar
61. Delannoy, J. Sur les observations crépusculaires de la raie du lithium au cours de l’Année Géophysique Internationale. Ann. Géophys., 16, 507, 1960.Google Scholar
62. Delannoy, J. Note sur la raie crépusculaire 6708 Å du lithium en terre Adélie. Ann. IGY, II, 147, 1961.Google Scholar
63. Delsemme, A., Delsemme, D. La raie rouge de ciel nocturne à l’équateur. Ann. Géophys., 16, 507, 1960.Google Scholar
64. Dietze, G. Ein Gerät zur Messung der Himmellicht-Polarisation während der Dämmerung und in der Nacht. Z. Meteorol., 14, 179, 1960.Google Scholar
65. Donahue, T. M. Excitation of the Lyman α in the night sky. Space Sci. Rev., 1, 135, 1962.Google Scholar
66. Donahue, T. M. On a large diurnal variation in hydrogen abundance. J. Geophys. Res. 1963.(in press).Google Scholar
67. Donahue, T. M., Blamont, J. E. Sodium in the upper atmosphere. Ann. Géophys., 17, 116, 1961.Google Scholar
68. Donahue, T. M., Blamont, J. E., Lory, M. L. The influence of resonance absorption in the sodium layer on temperature and density measurements in the upper atmosphere. Planet, and Space Sci., 5, 185, 1961.Google Scholar
69. Donahue, T. M., Fastie, W. G. Fourth Intern. Space Sci. Symp. (COSPAR). Warsaw, June 1963 (in press).Google Scholar
70. Donahue, T. M., Thomas, G. E. Lyman α Scattering in the Earth’s hydrogen geocorona. J. Geophys. Res., 68, 2661, 1963.Google Scholar
71. Donahue, T. M., Thomas, G. Distribution of hydrogen in the outer atmosphere. Planet, and Space Sci., 10, 65, 1963.Google Scholar
72. Dufay, J., Dufay, M., Doan, Nguyen Huu Sur les variations d’intensités des raies Hα et [Nu] 6583Å dans le spectre du ciel nocturne. C.R. Acad Sci. Paris, 253, 974, 1961.Google Scholar
73. Dufay, J., Weill, G. Le spectre du ciel nocturne dans la région visible observé dans l’antarctique. C.R. Acad. Sci. Paris, 255, 2338, 1962.Google Scholar
74. Dufay, M. Sur la présence de la raie Hα dans le spectre du ciel nocturne. J, Phys. Rad., 22, 844, 1961.Google Scholar
75. Dufay, M. Observation de la raie 5199Å de [NI] dans le spectre du ciel nocturne. Ann. IGY, II, 153, 1961.Google Scholar
76. Duncan, R. A. Photometric observations of 5577Å and 6300Å airglow during the IGY. Austr. J. Phys., 13, 633, 1960.Google Scholar
77. Duncan, R. A. Photometric observation of 5577Å and 6300Å airglow during the IGY. Ann. IGY, II, 162, 1961.Google Scholar
78. Ferguson, A. F., Parkinson, D. The hydroxyl bands in the nightglow. Planet. Space Sci. 11, 149, 1963.Google Scholar
79. Fishkova, L. M. The rotational temperature of the hydroxyl emission of the upper atmosphere. Abastumanskaja astrof. Obs. Bjull, 29, 55, 1962.Google Scholar
80. Fishkova, L. M. Seasonal and annual intensity variations of the airglow in Abastumani. Sbornik, no. 9, 5, 1962.Google Scholar
81. Fishkova, L. M. On space distribution and variations of the H airglow emission. Sbornik, no. 10, 35, 1963.Google Scholar
82. Fishkova, L. M., Markova, G. V. On the variations of the HI line 6563Å in the nightglow spectrum. Dokl. Ak. N. SSSR, 134, 799, 1960.Google Scholar
83. Fishkova, L. M., Markova, G. V. OH emission according to observations in Abastumani. Sbornik no. 6, 17, 1961.Google Scholar
84. Gadsden, M. Observations of lithium in twilight after a high-altitude thermonuclear explosion. Ann. Géophys., 18, 392, 1962.Google Scholar
85. Gault, W. A., Hunten, D. M. High abundance of twilight lithium, November 1962. Nature. Lond., 198, 469, 1963.Google Scholar
86. Gaynullina, R.Ch., Karaygina, Z. V. The investigation of the nightglow spectrum in the wavelength region 6200-6600Å. Izv. astrofiz. Inst. Ak. N. Kazakh. SSR, no. 10, 52, 1960.Google Scholar
87. Georgio, N. V. Airglow observations near the auroral zone. Sbornik no. 8, 15, 1962.Google Scholar
88. Ghosh, S. N., Sharma, A. Excitation of green and red lines in the night airglow. J. almos, terr. Phys., 20, no, 1961.Google Scholar
89. Gindilis, L. M. The absolute measurements of the nightglow continuum. Sbornik no. 11, 28, 1963.Google Scholar
90. Glaume, J. Influence des marées lunaires sur l’émission de la raie verte 5577Å de l’oxygène. C.R. Acad. Sci. Paris, 254, 3399, 1962.Google Scholar
91. Hanson, W.B., Patterson, T. N. L. Diurnal variation of the hydrogen concentration in the exosphere. Planet, and Space Sci. 1963 (in press).Google Scholar
92. Haug, U. Zur Statistik der räumlichen Helligkeitsschwankungen der [OI] Linie 5577Å im Nachthimmelleuchten. J. Atmos. terr. Phys., 21, 225, 1961.Google Scholar
93. Heath, D. F., Fastie, W. G. Spectra of the day airglow and the night airglow in the 1100-2000Å region. Amer. Geoph. Un. Trans., 43, 435, 1962.Google Scholar
94. Heddle, D. W. O. Studies of the ultra-violet emission from the night sky. Mem. Soc. R. Sci. Liège, sème sér., 4, 135, 1961.Google Scholar
95. Hoffmeister, C. Interplanetare Materie und verstärktes Nachthimmelleuchten. Z. Astrophys., 49, 233, 1960.Google Scholar
96. Hunten, D. M. Resonance scattering by atmospheric sodium. VIII. An improved method of deducing the vertical distribution. J. atmos. terr. Phys., 17, 295, 1960.Google Scholar
97. Hunten, D. M. Temperatures deduced from aurora and airglow spectra. Ann. Geophys., 17, 249, 1961.Google Scholar
98. Hunten, D. M. Transmission functions for twilight studies. J. atmos. terr. Phys., 24, 333, 1962.Google Scholar
99. Hunten, D. M. The production of N2 + in the atmosphere. Planet, and Space Sci. 10, 37, 1963.Google Scholar
100. Hunten, D. M., Vallance Jones, A., Ellyett, C. D., McLauchlan, E. C. Sodium twilight at Christchurch, New Zealand. J. atmos. terr. Phys. (in press).Google Scholar
101. Huruhata, M., Nakamura, T., Tanabe, H., Tohmatsu, T. Oxygen red line in the night airglow and ionospheric F2 region. Rep. lonosph. Space Res. Japon, 13, 283, 1959.Google Scholar
102. Huruhata, M., Nakamura, J. Latitude dependency of airglow emissions 5577 and 6300Å. Ann. IGY, 11, 161, 1961.Google Scholar
103. Huruhata, M., Nakamura, T. Stability of fluorescent standard light. Tokyo astr. Bull. Ser. II, no. 160, 1963.Google Scholar
104. Ingham, M. F. The nightglow spectrum. I. λλ 3700-4650Å. Mon. Not. R. astr. Soc, 124, 505, 1962.Google Scholar
105. Ingham, M. F. The nightglow spectrum. II. Hα radiation in the night sky. Mon. Not. R. astr. Soc, 124, 523, 1962.Google Scholar
106. Jarrett, A. H. Instrumental optics and problems of the Earth’s atmosphere. Planet, and Space Sci., 9, 675, 1962.Google Scholar
107. Jarrett, A. H., Hoey, M. J. A ground level photographic observation of the day airglow emission of atomic oxygen at 6300Å. Planet, and Space Sci., 11, 1251, 1963.Google Scholar
108. Johnson, F. S. The telluric hydrogen corona and some of its consequences. Space Res., 1, 736, 1960.Google Scholar
109. Johnson, F. S. The distribution of hydrogen in the telluric hydrogen corona. Astrophys. J; 133, 7O1, 1961 Google Scholar
110. Johnson, F. S. Structure of the upper atmosphere. Satellite Environment Handbook. Ed. Francis S., Johnson. Stanford Univ. Press, 1961. p. 17.Google Scholar
111. Johnson, F. S., Fish, R. A. The telluric hydrogen corona. Astrophys. J., 131, 502, 1960.Google Scholar
112. Kamiyama, H. Intensity variation of oxygen red line in the night airglow. J. Geomagn. and Geoelectr. (Kyoto),14, 58, 1962.Google Scholar
113. Karyagina, Z. V. The hydroxyl emission in the airglow spectrum according to observations in Alma-Ata. Sbornik no. 8, 6, 1962.Google Scholar
114. Karyagina, Z. V. The nightglow emission of the ultra-violet spectrum. Sbornik no. 10, 15. 1963.Google Scholar
115. Kato, Y., Okuda, M. Report on observation of the oxygen green line in night airglow. Sci. Rep. Tôhoku Univ. Ser. 5, 14, 1, 1962.Google Scholar
116. King, G. A. M., Roach, F. E. Relationship between red auroral arcs and ionospheric recombination. J. Res. NBS, 65D, 129, 1961.Google Scholar
117. Kodama, M. Night airglow observations on M/S/ Soya during the period from November 1961 to April 1962. Antarctic Record (Tokyo) (in press).Google Scholar
118. Kononovich, E. W., Shefov, N. N. Variations of the solar ultra-violet radiation and the excitation of the emissions in the twilight spectrum. Geomagn. i Aeron., 3, 3, 1963.Google Scholar
119. Koomen, M. J., Gulledge, I. S., Packer, D. M., Tousey, R. Night airglow observations from orbiting spacecraft compared with measurements from rockets. Science, 140, 1087, 1963.Google Scholar
120. Krassovsky, V. I. Some problems of physics of the upper atmosphere. Proc. 11th Intern. Astronaut. Congr. Stockholm, no. 61, 518, 1960.Google Scholar
121. Krassovsky, V. I. Some results of investigations of aurorae and night airglow during the IGY and IGC. Uspekhi fiz. nauk (Moskva), 75, 501, 1961.Google Scholar
122. Krassovsky, V. I. On the nature of the OH emission in the upper atmosphere. Sbornik no. 5, 29, 1961.Google Scholar
123. Krassovsky, V. I. Some results of investigations of aurorae and night airglow during the IGY and IGC. Planet, and Space Sci., 8, 125, 1961.Google Scholar
124. Krassovsky, V. I. The chemistry of the upper atmosphere. Isk. sputn. zemli (Moskva), 17, 3,1963.Google Scholar
125. Krassovsky, V. I. The chemistry of the upper atmosphere. Space Res. 3, Washington 1963, p. 96.Google Scholar
126. Krassovsky, V. I. The hydroxyl emission in the upper atmosphere. Sbornik no. 10, 24, 1963.Google Scholar
127. Krassovsky, V. I. Hydroxyl emission in the upper atmosphere. Planet, and Space Sci., 10, 7, 1963.Google Scholar
128. Krassovsky, V. I. Shefov, N. N. Rapid photo-electrons and helium emission in the upper atmosphere. Planet, and Space Sci. (in press) 1963.Google Scholar
129. Krassovsky, V.I, Shefov, N. N., Yarin, V. I. On the OH airglow. J. atmos. terr. Phys., 21, 46, 1961.Google Scholar
130. Krassovsky, V.I, Shefov, N. N., Yarin, V. I. Atlas of the airglow spectrum 3000-12400Å. Planet, and Space Sci., 9, 883, 1962.Google Scholar
131. Kreplin, R. W., Friedman, H., Chubb, T. A., Mange, T. Further comments on the role of secondary scattering in the Lyman-α problem. Planet, and Space Sci., 9, 68, 1962.Google Scholar
132. Kvifte, G. Auroral and nightglow observations at Aas. J. atmos. terr. Phys., 16, 252, 1959.Google Scholar
133. Kvifte, G. Nightglow observations at Aas during IGY. Geofiz. Publ. (Oslo), 20, no. 12, 1959.Google Scholar
134. Kvifte, G. The twilight radiation at 6708Å. Nature, Lond., 183, 1384, 1959.Google Scholar
135. Kvifte, G. The alkali metals in the upper atmosphere. Fra Fysikkens Verden. (Oslo), 21, 253, 1960.Google Scholar
136. Kvifte, G. Wavelengths of the visible and near infra-red bands of the OH rotation vibrational system and rotational term values of the X2II3/2 and X2II1/2 levels of the OH molecule. Dept. of Physics. Agricultural College of Norway, June 1960.Google Scholar
137. Kvifte, G. Temperature measurements from OH bands. Planet, and Space Sci., 5, 153. 1961.Google Scholar
138. Kvifte, G. Relative population of OH X2II levels. Planet, and Space Sci., 5, 158, 1961.Google Scholar
139. Kviz, Z., Link, F., Neuzil, L., Zacharov, I. Mesures de la luminance crépusculaire dans le programme tchécoslovaque de l’ AGI et de la CGI, 1957-1959. Bull. astr. Inst. Csl., 13. 133, 1962.Google Scholar
140. Link, F. Emissions de la haute atmosphère pendant le crépuscule. Ann. IGY, 11, 149, 1961.Google Scholar
141. Link, F. Emissions crépusculaires mesurées à Lomnicky Stit (2634m) au cours l’AGI et la CGI, 1957-1959). Bull. astr. Inst. Csl., 14, 13, 1963.Google Scholar
142. Link, F., Neužil, L. Etalonnage des photomètres du ciel nocturne en service pendant l’AGI et la CGI. Studia geoph. geodet., 6, 193, 1962.Google Scholar
143. Lytle, E. A., Hunten, D. M. Observations of N2 + twilight and sunlit aurora. Can. J. phys., 40, 1370, 1962.Google Scholar
144. Maartense, I., Hunten, D. M. A note on N2 + twilight and sunlit aurora. Can. J. Phys. (in press). Google Scholar
145. Marovich, E., Roach, F. E. Distribution of latitude of red arcs. J. Geophys. Res., 68, 1885, 1963.Google Scholar
146. Mc, Caulley|J. W., Hough, W. S. A relationship between the lower ionosphere and the [OI] 5577 nightglow emission. J. Geophys. Res., 64, 2307, 1959.Google Scholar
147. McCaulley, J. W., Roach, F. E., Matsushita, S. A study of local geomagnetic influence in the [OI] 5577 nightglow emission at Fritz Peak. J. Geophys. Res., 65, 1499, 1960.Google Scholar
148. McPherson, D. H., Jones, A. V. A study of the latitude dependence of OH rotational temperatures for Canadian stations. J. atmos. terr. Phys., 17, 302, 1960.Google Scholar
149. Megill, L. R. A study of the atmospheric twilight emissions [OI] 5577 and [OI] 6300. Doctorate Thesis, Univ. Colorado, 1959.Google Scholar
150. Megill, L. R. Photometric observations of the twilight glow [OI] 5577 and [OI] 6300. J. atmos. terr. Phys., 17, 276, 1960.Google Scholar
151. Megill, L. R., Jamnick, , Pauline, M., Cruz, J. E. Seasonal variations in the twilight enhancement of [OI] 5577. J. atmos. terr. Phys., 18, 309, 1960.Google Scholar
152. Megill, L. R., Rees, M. H., Droppleman, L. K. Electric fields in the ionosphere and the excitation of the red lines of atomic oxygen. Planet, and Space Sci., II, 45, 1963.Google Scholar
153. Megill, L. R., Roach, F. E. The integrated starlight over the sky. NBS Techn. Note no. 106, 1961.Google Scholar
154. Migulin, A. V. On the separation of the nightglow continuum components. Sbornik no. 11, 21, 1963.Google Scholar
155. Mironov, A. V. Some results of electrophotometrical measurements of airglow. Sbornik no. 6, 12, 1961.Google Scholar
156. Mironova, L. V., Shefov, N. N. The wavelengths of the rotation-vibration OH bands. Sbornik no. 8, 11, 1962.Google Scholar
157. Moore, J. G. The geographic positions of the stable red arcs of October 25 and October 26, 1960. J. phys. Soc. Japan, 17, Suppl. AI, 210, 1962.Google Scholar
158. Moore, J. G., Odencrantz, F. K. The height and geographical position of the red auroral arc of April 1-2, 1960. J. Geophys. Res., 66, 2101, 1961.Google Scholar
159. Moroz, V. I. On the nightglow brightness in the region 0.9-1.8μ.. Astr. Zu, 38, 998, 1961.Google Scholar
160. Morton, D. C. Spectroscopic observations of the night sky in the extreme ultra-violet. Planet, and Space Sci., 9, 459, 1962.Google Scholar
161. Morton, D.C, Purcell, J. D. Observations of the extreme ultra-violet radiation in the night sky using an atomic hydrogen filter. Planet, and Space Sci., 9, 455, 1962.Google Scholar
162. Nakamura, M. Diurnal variation of the intensity of OH emissions in the night sky. Rep. Ionosph. Space Res. Japan, 15, 346, 1961.Google Scholar
163. Nakamura, M. Height of the layer of near infra-red OH emissions. Rep. Ionosph. Space Res. Japan., 15, 364, 1961.Google Scholar
164. Nakamura, T. Latitude dependency of airglow emissions. Antarctic Record (Tokyo) no. 11, 237, 1960.Google Scholar
165. Nakamura, T. Latitude effect of oxygen red line of night airglow and its relation with ionospheric F layer. Rep. Ionosph. Space Res. Japan., 15, 245, 1961.Google Scholar
166. Nakamura, T. Photo-electric observations of the night airglow emissions (5577Å, 5893Å, 6300Å and OH infra-red). Antarctic record (Tokyo) no. 12, 14, 1961.Google Scholar
167. Huu-Doan, Nguyen, Variations au cours du crépuscule du rapport des intensités des raies D du sodium atmosphérique. C.R. Acad. Sci. Paris, 251, 3031, 1960.Google Scholar
168. Huu-Doan, Nguyen, Résultats préliminaires sur le rapport des intensités des raies D2 et D1 émises dans la haute atmosphère au crépuscule et pendant la nuit. Ann. IGY, 11, 154 1961.Google Scholar
169. Huu-Doan, Nguyen Sur l’excitation de la raie crépusculaire du lithium (6708 Å) observée à l’Observatoire de Haute-Provence depuis Novembre 1962. C.R. Acad. Sci. Paris, 256, 1141, 1963.Google Scholar
170. Noxon, J. F. Observation of the ##(b1Ľg + — a1Лg) transition in 02 . Can. J. Phys., 39, 1110, 1961.Google Scholar
171. Noxon, J. F., Goody, R. M. Observation of day airglow emission. J. Atmos. Sci., 19, 342, 1963.Google Scholar
172. Noxon, J. F. A balloon-borne spectrometer for study of the airglow beyond 2, oμ. Can. J. Phys., 39, 1120, 1961.Google Scholar
173. Noxon, J. F., Vallance, JonesA. Observations of the (0,0) band of the ##(1Δg3Σg) system of oxygen in the day and twilight airglow. Nature, Lond., 196, 157, 1962.Google Scholar
174. O’Brien, B. J. Southern hemisphere observations of sodium emission throughout twilight. J. Geophys. Res., 65, 137, 1960.Google Scholar
175. O’Brien, B. J., de, LaharpeG. Portable airglow photometer. J. Scient. Instrum., 37, 54, 1960.Google Scholar
176. O’Brien, B. J., Van Allen, J. A., Roach, F. E., Gartlein, C. W. Correlation of an auroral arc and a subvisible monochromatic 6300Å arc with outer-zone radiation on November 28, 1959. J. Geophys. Res., 65, 2759, 1960.Google Scholar
177. Odencrantz, F. K., Lee, J. B., Devereaux, H. L. Visible sodium airglow on the night of January 30-31, 1960. J.Geophys. Res., 67, 5131, 1962.Google Scholar
178. Okuda, M. A study of excitation process in night airglow. Sci. Rep. Tohoku Univ. Ser. 5, 14, 9, 1962.Google Scholar
179. Omholt, A. The discharge theory of the nightglow emission [OI] λ 5577. Phys. Norveg., 1, 33, 1962.Google Scholar
180. öpik, E. J., Singer, S. F. Distribution of density in a planetary exosphere. Phys. Fluids, 2, 653, 1959.Google Scholar
181. Öpik, E. J., Singer, S. F. Distribution of density in a planetary exosphere. Phys. Fluids, 3, 486, 1960.Google Scholar
182. Öpik, E. J., Singer, S. F. Distribution of density in a planetary exosphere. Phys. Fluids, 4, 221, 1961.Google Scholar
183. Oti, N. Study on [OI] λ 5577 of night airglow. I. Height of [Oi] λ 5577 emitting layer. Sci. of Light (Tokyo), 10, 81, 1961.Google Scholar
184. Oti, N. Photo-electric photometer for observing night airglow [OI] λ 5577. J. Sci. Hiroshima Univ., 23A, 351, 1962.Google Scholar
185. Oti, N. Study on [OI] A 5577 of night airglow. II. Diurnal variations of [OI] λ 5577 line. J. Sci. Hiroshima Univ., 25A, 361, 1962.Google Scholar
186. Oti, N. Study on [OI] λ SS77 of night airglow. III. Seasonal variations of [OI] λ 5577 line. J. Sci. Hiroshima Univ., 25A, 373, 1962.Google Scholar
187. Packer, D. M. Altitude of the night airglow radiations. Ann. Géophys., 17, 67, 1961.Google Scholar
188. Pande, M.C., Varma, S. S. Study of variations of the forbidden oxygen lines in the nightglow. J. atmos. terr. Phys., 20, 195, 1961.Google Scholar
189. Potter, A. E. Jr., Del Duca, B. S. Origin of the sodium airglow. J. Geophys. Res., 65, 3915, 1960.Google Scholar
190. Prokudina, V. S. Suppl. to the paper ‘Some peculiarities of the airglow spectra and of the aurorae of low latitudes’. Sbornik no. 5, 32, 1961.Google Scholar
191. Purdy, C. M., Megill, L. R., Roach, F. E. A new airglow photometer. J. Res. NBS, 65C, 213, 1961.Google Scholar
192. Rees, M. H., A method for determining the height and geographical position of an auroral arc from one observing station. J. Geophys. Res., 68, 175, 1963.Google Scholar
193. Rees, M. H., Dheer, C. S. Twilight enhancement of atmospheric sodium emission at College Alaska. J. Geophys. Res., 67, 2309, 1962.Google Scholar
194. Roach, F. E. The intercalibration of airglow photometers. NBS Rep. no. 5591, July 21, 1958.Google Scholar
195. Roach, F. E. The night airglow (prime). Geophysics and the IGY, Geophys. Monogr. no. 2, 97. 1958.Google Scholar
196. Roach, F. E. The night airglow. Proc. IRE, 47, 267, 1959.Google Scholar
197. Roach, F. E. Upper Atmosphere and Space. Book of Knowledge, 1959.Google Scholar
198. Roach, F. E. The intensity of [OI] 5577 in the subauroral region as a function of magnetic activity. J. Geophys. Res., 65, 1495, 1960.Google Scholar
199. Roach, F. E. Variations of [OI] 5577Â emission in the upper atmosphere. Ann. Géophys., 17, 172, 1961.Google Scholar
200. Roach, F. E. Auroral arcs in mid-latitudes. NBS Techn. News Bull. no. 46, 42, 1962.Google Scholar
201. Roach, F. E. International Conference on Cosmic Rays and the Earth Storm, Part I. J. phys. Soc. Japan, 17, Suppl. AI, 258, 1962.Google Scholar
202. Roach, F. E. Airglow research. Amer, geophys. Un. Trans., 44, 431, 1963.Google Scholar
203. Roach, F. E. The nightglow. Adv. Electronics and Electron Phys., Vol. 18. Academic Press, New York, 1963.Google Scholar
204. Roach, F. E., Barbier, D., Duncan, R. A. Observations of a 6300 Å arc in France, The United States, and Australia. Ann. Géophys., 18, 390, 1962.Google Scholar
205. Roach, F. E., Marovich, E. The aurora of October 22-23, 1958, at Rapid City South Dakota. J. Res. NBS, 64D, 205, 1960.Google Scholar
206. Roach, F. E., McCaulley, J. W., Marovich, E., Purdy, C. M. A comparative study of absolute zenith intensities of [OI] 5577. J. Geophys. Res., 65, 1503, 1960.Google Scholar
207. Roach, F. E., Megill, L. R. Integrated starlight. Astrophys. J., 133, 228, 1961.Google Scholar
208. Roach, F. E., Moore, J. G., Bruner, E. C. Jr., Cronin, H., Silverman, S. M. The height of maximum luminosity in an auroral arc. J. Geophys. Res., 65, 3575, 1960.Google Scholar
209. Roach, F. E., Rees, M. H. The absolute zenith intensity of [OI] 5577 at College, Alaska. J. Geophys. Res., 65, 1489, 1960.Google Scholar
210. Roach, F. E., Roach, J. R. Stable 6300Å auroral arcs in mid-latitudes. Planet, and Space Sci., 11, 523, 1963.Google Scholar
211. Rundle, H. N., Hunten, D. M., Chamberlain, J. W. Resonance scattering by atmospheric sodium. VII. Measurement of the vertical distribution in twilight. J. atmos. terr. Phys., 17, 205, 1960.Google Scholar
212. Saito, B. Airglow continuum and zodiacal light extending to higher ecliptic latitudes. Rep. lonosph. Space Res. Japan, 14, 180, 1960.Google Scholar
213. Saito, B. Background of airglow [OI] 5577 and two-colour photometry. J. Fac. Sci. Niigata Univ., Ser. 1, 3, no. 1, 1960.Google Scholar
214. Saito, B. Report on night airglow observations in the 5th Japanese antarctic research expedition 1960-61. Latitude dependency. Antarctic Record, (Tokyo), no. 14, 1, 1962.Google Scholar
215. Saito, B. Unusual enhancement of night airglow intensity at low latitudes on November 13, 1960. Antarctic Record, (Tokyo), no. 14, 8, 1962.Google Scholar
216. Salova, G. I. On the hydroxyl rotational temperature according to observations in Turkmenia. Izv. Akad. Nauk. Turkm. SSR. Ser. fiz.-tekhn. no. 1, 115, 1962.Google Scholar
217. Salova, G. I. The rotational temperature of the OH bands according to observations in Ashkhabad. Sbornik no. 9, 44, 1962.Google Scholar
218. Sandford, B. P. The behaviour of night sky 6300, 5577 and 3914Å emissions at Scott Base, Antarctica. J. atmos. terr. Phys., 21, 182, 1961.Google Scholar
219. Schade, W. J. The auroral green line in laboratory afterglows and the night airglow. J. Geophys. Res., 66, 1559, 1961.Google Scholar
220. Shcheglov, P. V. The twilight flash of the infra-red helium line λ io 830Å. Astr. Zu., 39. 158, 1962.Google Scholar
221. Shcheglov, P. V. Observation of the twilight helium emission λ 10 830Å with FabryPérot interferometer. Sbornik no. 9, 59, 1962.Google Scholar
222. Shcheglov, P. V. On the concentration of nightglow Hα-emission to the ecliptic and on the radial velocities of this line. Astr. Cirk. no. 237, 1, 1963.Google Scholar
223. Shcheglov, P. V. The observations of the several small nightglow emissions by image converter telescopy. Sbornik no. 10, 40, 1963.Google Scholar
224. Shefov, N. N. On the determination of the rotational temperature of the OH bands. Sbornik no. 5, 5, 1961.Google Scholar
225. Shefov, N. N. Observations of the OH emission in Zvenigorod. Sbornik no. 5, 18, 1961.Google Scholar
226. Shefov, N. N. Continuous emission in the night airglow. Sbornik, no. 5, 39, 1961.Google Scholar
227. Shefov, N. N. On vibrational population rates of OH molecules. Sbornik no. 6, 21, 1961.Google Scholar
228. Shefov, N. N. The twilight helium emission λ 10 830Å. Astr. Cirk. no. 222, 11, 1961.Google Scholar
229. Shefov, N. N. Emission de l’hélium dans la haute atmosphère. Ann. Géophys., 17, 395, 1961.Google Scholar
230. Shefov, N. N. Sur l’émission de l’hélium dans la haute atmosphère. Ann. Géophys., 18, 125, 1962.Google Scholar
231. Shefov, N. N. The helium emission in the upper atmosphere. Sbornik no. 8, 50, 1962.Google Scholar
232. Shefov, N. N. The twilight OI 8446Å emission. Sbornik no. 9, 55, 1962.Google Scholar
233. Shefov, N. N. Behaviour of the twilight helium emission at λ 10 830Å, Sbornik no. 10, 56, 1963.Google Scholar
234. Shefov, N. N. The correlation between the upper atmosphere emissions. Sbornik no. 11,46,1963.Google Scholar
235. Shefov, N. N. The upper atmosphere emissions and the noctilucent clouds. Sbornik no. 11, 52, 1963.Google Scholar
236. Shefov, N. N. The rare gas emission in the airglow and aurora. Sbornik no. 11, 70, 1963.Google Scholar
237. Shefov, N. N. The helium in the upper atmosphere. Planet, and Space Sci., 10, 73, 1963.Google Scholar
238. Shefov, N. N., Yarin, V. I. On the latitudinal dependence of the OH rotational temperature. Sbornik no. 5, 25, 1961.Google Scholar
239. Shefov, N. N., Yarin, V. I. Latitudinal and planetary variations of the OH airglow. Sbornik no. 9, 19, 1962.Google Scholar
240. Shemansky, D. E., Vallance Jones, A. New measurements of the night airglow spectrum in the 1.5α region. J. atmos. terr. Phys., 22, 166, 1961.Google Scholar
241. Shepherd, G. G. A Fabry-Pérot spectrometer for auroral and airglow observations. Can. J. Phys., 38, 1560, 1960.Google Scholar
242. Shepherd, G. G., Bens, A. R. Twilight lithium in the upper atmosphere. II. Fine and hyperfine structure of twilight lithium emission, November 1962. Nature, Lond., 198, 470, 1963.Google Scholar
243. Shuyskaya, F. K. An attempt of the detection of dayglow emissions during Sun’s eclipse February 15, 1961. Sbornik no 10, 44, 1963.Google Scholar
244. Silverman, S. M. Unusual fluctuations of 5577 Ā [OI] airglow emission intensity in October 28-29, 1961. Nature Lond., 195, 481, 1962.Google Scholar
245. Silverman, S. M. Behaviour of 6300Å [OI] in the night airglow at Sacramento Peak, New Mexico, during magnetically quiet and magnetically disturbed periods. J. phys. Soc. Japan, 17, Suppl. AI, 205, 1962.Google Scholar
246. Silverman, S. M., Casaverde, M. Behaviour of the 6300 [OI] line at Huancayo. J. Geophys. Res., 66, 323, 1961.Google Scholar
247. Silverman, S. M., Ward, F., Shapiro, R. The correlation between the 5577 Å night airglow intensity and geomagnetic activity. J. Geophys. Res., 67, 2255, 1962.Google Scholar
248. Sobouti, Y. Fluorescent scattering in planetary atmospheres. II. Coupling among different transitions. Astrophys. J., 135, 938, 1962.Google Scholar
249. Sobouti, Y. Fluorescent scattering in planetary atmospheres. III. Formation of LymanBirge-Hopfield bands of N2 in the martian atmosphere. Astrophys. J., 138, 720, 1963.Google Scholar
250. Sobouti, Y. Fluorescent scattering in planetary atmospheres. IV. Formation of LymanBirge-Hopfield bands of N2 in the terrestrial atmosphere. Astrophys. J., 138, 748, 1963.Google Scholar
251. Sobouti, Y. Chandrasekhar’s X-, Y-, and related functions. Astrophys. J. Suppl., 7, 411, 1963.Google Scholar
252. Stoffregen, W., Derblom, H.,Ånger, B. Lithium emission in twilight at Uppsala during November 1962. Nature, Lond., 197, 783, 1963.Google Scholar
253. Sullivan, H. M., Hunten, D. M. Lithium twilight at Saskatoon, 1960-61. Nature, Lond., 193, 1064, 1962.Google Scholar
254. Sullivan, H. M., Hunten, D. M. Relative abundances of Li, Na, and K in the upper atmosphere. Nature, Lond., 195, 589, 1962.Google Scholar
255. Tandberg-Hanssen, E., Roach, F. E. Excitation mechanisms of the oxygen 5577 emission in the upper atmosphere. J. Res. NBS 63D, 319, 1959.Google Scholar
256. Taranova, O. G. Continuum emission in airglow and aurorae. Sbornik no. 8, 21, 1962.Google Scholar
257. Taranova, O. G. On the statistical treatment of the photo-electric measurements with the filters. Sbornik no. 11, 37, 1963.Google Scholar
258. Tarasova, T. M. Direct measurements of night sky luminosity. Astr. Cirk. no. 222, 31, 1961.Google Scholar
259. Tarasova, T. M. Direct measurements of the airglow in the region λ = 8640Å. Isk. Sputn. zemli no. 13, 107, 1962.Google Scholar
260. Tarasova, T. M. Night-sky emission-line energy distribution with respect to height. Space Res., 3, 162, 1963.Google Scholar
261. Tinsley, B. A., Vallance Jones, A. The seasonal variation of the twilight sodium airglow in the southern hemisphere. J. atmos. terr. Phys., 24, 345, 1962.Google Scholar
262. Tohmatsu, T., Kaneda, E., Nagata, T. Lunar time variation of oxygen green line in the night airglow. Rep. Ionosph. Space Res. Japan, 15, 90, 1961.Google Scholar
263. Tohmatsu, T., Nagata, T. Dynamical studies of the oxygen green line in the airglow. Planet, and Space Sci., 10, 103, 1963.Google Scholar
264. Tohmatsu, T., Roach, F. E. The morphology of mid-latitude 6300Å arcs. J. Geophys. Res., 67, 1817, 1962.Google Scholar
265. Truttse, Yu. L. Anomalous rise in the intensity of the atmosphere’s natural glow in the λ 5577Å region. Planet, and Space Sci., 2, 993, 1962.Google Scholar
266. Truttse, Yu. L. Spectral distribution of the star and terrestrial continuum components in the nightglow. Sbornik no. 10, 5, 1963.Google Scholar
267. Truttse, Yu. L. An abnormal intensity enhancement of the 5577Å airglow. Sbornik no. 10, 13, 1963.Google Scholar
268. Truttse, Yu. L. The measurements of the continuum from the photo-electrical observations of the [OI] λ SS77Å emission. Sbornik no 10, 8, 1963.Google Scholar
269. Truttse, Yu. L. The spectral variations of the nightglow continuum. Sbornik no. 11, 5, 1963.Google Scholar
270. Truttse, Yu. L. The spatial variations of the oxygen lines’ intensities. Sbornik no. 11, 56, 1963.Google Scholar
271. Truttse, Yu. L. Connection between the pattern structures of the green and red emissions of the atomic oxygen in the nightglow. Astr. Cirk. no. 258, 1, 1963.Google Scholar
272. Vallance Jones, A. Metallic emissions in the twilight and their bearing on atmospheric dynamics. Planet, and Space Sci., 10, 117, 1963.Google Scholar
273. Vallance Jones, A., Gattinger, R. L. The seasonal variation and excitation mechanism of the 1.58μ##(1Δ — 3Дg) twilight airglow band. Planet, and Space Sci., II, 961, 1963.Google Scholar
274. Vassy, E. Recherches scientifiques récemment effectuées au moyen de fusées ‘Véronique’. Expériences de Physique de la haute atmosphère. Onde Electrique, 41, 778, 1961.Google Scholar
275. Vassy, E. La participation du Laboratoire de Physique de l’Atmosphère à la recherche spatiale. Rev. Franc. Astronaut, 3, 89, 1961.Google Scholar
276. Wallace, L. The constants of the (2II — 2II) OH bands. Astrophys. J., 132, 894, 1960.Google Scholar
277. Wallace, L. Note on airglow temperature determinations from OH spectra. J. Geophys. Res., 65, 921, 1960.Google Scholar
278. Wallace, L. Seasonal variation and interpretation of the OH rotational temperature of the airglow. J. atmos. terr. Phys., 20, 85, 1961.Google Scholar
279. Wallace, L. An attempt to observe the day airglow. J. Geophys. Res., 66, 1585, 1961.Google Scholar
280. Wallace, L. The OH nightglow emission. J. Atmos. Sci., 19, 1, 1962.Google Scholar
281. Wallace, L. Observation of the day airglow. J.Geophys. Res., 68, 1559, 1963.Google Scholar
282. Wallace, L., Nidey, R. A. Rocket observation of the day airglow. J. Geophys. Res. (in press).Google Scholar
283. Ward, F., Silverman, S. M. Characteristics of the 5577Å [OI] night airglow at Maruyama and its relation to magnetic activity. J. Geophys. Res., 67, 5357, 1962.Google Scholar
284. Wark, D. Q. Doppler widths of the atomic oxygen lines in the airglow. Astrophys. J., 131. 491, 1960.Google Scholar
285. Weill, G. Observations photométriques des radiations violettes du ciel nocturne en été à l’Observatoire de Haute-Provence. Ann. Géophys. 17, 360, 1961.Google Scholar
286. Weill, G. Aurores polaires et phénomènes crépusculaires observés en radiation 3914 Å dans l’Antarctique. Ann. IGY, 11, 148, 1961.Google Scholar
287. Weissberg, O. L. On the photo-electrical registration of the infra-red spectra. Sbornik no. 10, 54, 1963.Google Scholar
288. Yarin, V. I. The OH emission according to observations in Yakutsk. Sbornik no. 5, 10, 1961.Google Scholar
289. Yarin, V. I. The correlation between some emissions of the night airglow. Sbornik no 5, 33, 1961.Google Scholar
290. Yarin, V. I. Continuous emission and the Herzberg 02 bands in the night airglow. Sbornik no. 5, 35, 1961.Google Scholar
291. Yarin, V. I. On the dependence of intensity of OH bands on the rotational temperature. Sbornik no. 8, 9, 1962.Google Scholar
292. Yarin, V. I. Variations of the vibrational population rates of OH molecules. Sbornik no. 9, 10, 1962.Google Scholar
293. Yarin, V. I. On the molecular oxygen emissions in Yakutsk. Sbornik no. 9, 34, 1962.Google Scholar
294. Yarin, V. I. [NI] λ 5200Å emission according to the observations in Yakutsk. Sbornik no. 9, 53, 1962.Google Scholar
295. Yarin, V. I. Some peculiarities of the twilight continuum. Sbornik no. 9, 61, 1962.Google Scholar
296. Young, R. A., Clark, K.C. Rate of the three body atomic oxygen reaction for the excitation of the airglow [OI] 5577 Å line. Phys. Rev. Letters, 5, 320, 1960.Google Scholar
297. Young, R. A., Sharpless, R. L. The nitric oxide β,γ,δ bands in the airglow. J. Geophys. Res., 67, 2581, 1962 Google Scholar
298. Young, R. A., Sharpless, R. L. Excitation of the 02 bands in the nightglow. J. Geophys. Res., 67, 3871, 1962.Google Scholar
299. Zacharov, I. Photometer for measuring the night-sky emission on Lomnice Peak. Bull. astr. Inst. Csl. 13, 188, 1962.Google Scholar
300. Zipf, E.C. Jr., Fastie, W. G. An observation of day airglow emission at 6300 Å. J. Geophys. Res. (in press), 1963.Google Scholar
301. Zwick, H. H., Shepherd, G. G. Ratio and absolute brightness measurements of the sodium D lines in the twilight airglow. Can. J. Phys., 41, 343, 1963.Google Scholar
302. Isophote maps of night airglow (for the selected period) during the International Geophysical Co-operation 1959. Nat. Com. IGC, Sci. Coun. Japan, 1960.Google Scholar
303. Airglow intensity obtained with patrol spectrograph during the IGY and the IGC. Nat. Com. IGC, Sci. Cairn. Japan, 1960.Google Scholar
304. Absolute intensity of 5577Å emission at Syowa Station during the IGC 1959. Nat. Com. IGC, Sci. Court. Japan, 1961.Google Scholar