Hostname: page-component-cd9895bd7-gbm5v Total loading time: 0 Render date: 2024-12-27T22:41:55.099Z Has data issue: false hasContentIssue false
  • English
  • Français

8. Commission de l’Astronomie de Position

Published online by Cambridge University Press:  16 November 2021

F. P. Scott

Abstract

An abstract is not available for this content so a preview has been provided. As you have access to this content, a full PDF is available via the ‘Save PDF’ action button.
Image of the first page of this content. For PDF version, please use the ‘Save PDF’ preceeding this image.'
Type
Reports of Commissions
Information
Transactions of the International Astronomical Union , Volume 12 , Issue 1: Reports on Astronomy , 1965 , pp. 39 - 51
Copyright
Copyright © Academic Press 1965 

References

Bibliography

1. Adams, A. N. Digital recording system and motor drive of the Washington transit circle micrometer. U.S. Naval Obs. Reprint no. 47, 1963.Google Scholar
2. Anguita, C., Bagildinsky, B. K., Carrasco, G., Loyola, P., Shishkina, V. N., Zverev, M. S. Plans and first results of joint work of the Pulkovo and Chilean astronomers. Info. Bull. South. Hemis., no. 3, 1963.Google Scholar
3. Anguita, C., Carrasco, G., Loyola, P., Shishkina, V. N., Zverev, M. S. Instrumental system of the Repsold meridian circle and Zeiss transit instrument at the Cerro Calán Observatory. Info. Bull. South. Hemis., no. 4, 1963.Google Scholar
4. Anguita, C., Zverev, M. S. First results of work with the meridian circle of the Cerro Calán Observatory. Trudy astr. Konferencii SSSR, 16. (in press).Google Scholar
5. Arbey, L., Guinot, B. Résultats des observations faites à Paris avec l’astrolabe impersonnel A. Danjon. Notes Inform. Paris, Fasc. VII, 1962 and Fasc. XIII, 1963.Google Scholar
6. Atkinson, R.d’E. Design and tests of a mirror transit circle. R. Obs. Bull. no. 34, 1961.Google Scholar
7. Becq, G., Melchior, P. Catalogue des déclinaisons des étoiles du Service International des Latitudes. Ann. Obs. Belg., 8, Fasc. 3, 1959.Google Scholar
8. Blinov, N. S. Some results of the Time Service of the Sternberg Astronomical Institut during the IGY. Astr. Zu., 5, no. 4, 38, 1961.Google Scholar
9. Brealey, G. A. The Ottawa mirror transit telescope. Sky and Teles., 21, 205, 1961.Google Scholar
10. Brealey, G. A., Tanner, R. W. Photographic registration of transits and reductions of observations on the Ottawa mirror transit telescope. Pub. Dom. Obs., 25, no. 3, 1963.Google Scholar
11. Danjon, A. Résultats déduits des observations à l’astrolabe O.P.L. de Paris et du PZT de Neuchâtel. Notes Inform. Paris, Fasc. VIII, 1962.Google Scholar
12. Débarbat, S., Kovalevsky, J. Discussion des observations de Mars faites à l’astrolable impersonnel A. Danjon. Bull. astr. 24, 69, 1963.Google Scholar
13. Dieckvoss, W. Die grossen internationalen Eigenbewegungsprogramme. Mitt. astr. Ges. 1962, 49, 1963.Google Scholar
14. Dieckvoss, W. Systematic errors in the AGK2 and final reductions in the AGK3-program. Astr. J., 67, 686, 1962.Google Scholar
15. Dovletiu-Vasile, M., Bârca-Toma, E. The study of the system of the Bucharest meridian instrument during 1956-1957. Studii si Cerc. Astr. si Seism., 7, no. 1, 1962.Google Scholar
16. Duma, D. P. On the determination of equinoctial points by lunar observations. Izv. glav. astr. Obs. Kiev, 5, no. 1, 12, 1963.Google Scholar
17. Duncombe, J. S., Hoffleit, D. Star catalogues on punch cards. Astr. J., 66, 283, 1961.Google Scholar
18. Eichhorn, H., Jefferys, W. H. Algorithm for the rigorous determination of differential astrometrie data. Astr. J., 68, 71, 1963.Google Scholar
19. Eichhorn, H., Williams, C. A. Systematic accuracy of photographic star positions and proper motions. Astr. J., 68, 72, 1963.Google Scholar
20. Eichhorn, H., Williams, C. A. On the systematic accuracy of photographic astrometric data. Astr. J., 68, 221, 1963.Google Scholar
21. Fayet, G. Étoiles intermédiaires, +5° à +15°, catalogue déduit des positions observées à l’aide du cercle méridien de l’Observatoire de Nice de 1912 à 1914. Ann. Bur. Long., 13, Paris, 1961.Google Scholar
22. Fricke, W., Kopff, A. et al. Fourth Fundamental Catalogue (FK4). Verôff. astr. Recheninst. Heidelberg, no. 10, 1963.Google Scholar
23. Gliese, W. The right ascension system of the Fourth Fundamental Catalogue. Ver’òff. astr. Rechen-Inst. Heidelberg, no. 12, 1963.Google Scholar
24. Guinot, B. Comparison du catalogue d’étoiles de l’astrolabe de Paris et d’autres catalogues. Bull. astr., 23, 343, 1961.Google Scholar
25. Guinot, B., Débarbat, S., Krieger-Fiel, J. Catalogue des positions de 571 étoiles du FK3 et du FK3 Supp. observées aux astrolabes A. Danjon. Bull. astr., 23, 307, 1961.Google Scholar
26. Guinot, B., Débarbat, S., Lefebvre, M. La constante de l’aberration déduite des mesures de latitude et de temps faites à l’Observatoire de Paris avec l’astrolabe impersonnel A. Danjon. Bull. astr., 23, 295, 1961.Google Scholar
27. Guljaev, A. P. Additional observations of the FKSZ stars from +75° to the pole. (In Russian), Trud. gos. astr. Inst. Sternberga, 31, 128, 1962.Google Scholar
28. Hansson, N. Investigations of the stability of transit circles. I. Thermal influences and mechanical flexure. Medd. Lunds astr. Obs.(I), no. 202, 1962.Google Scholar
29. Heintz, W. D. Meridianörter von 1570 Sternen und acht Planeten, gemessen 1956-59 am Meridiankreis München. Veröff. Sternw. Münch., 5, no. 15, 1962.Google Scholar
30. Hoffleit, D. Current work on southern zone catalogues at the Yale Observatory. Astr. J., 67, 696, 1962.Google Scholar
31. Hög, E. Note to ‘Problems in Meridian Astronomy’. Astr. J., 66, 531, 1961.Google Scholar
32. Hög, E. The photoelectric micrometer for the Bergedorf meridian circle. Heidelberg Akad. Wiss., 2 Abh., 48, 1963.Google Scholar
33. Jefferys, W. H. On computational techniques for photographic astrometry with overlapping plates. Astr. J., 68, 111, 1963.Google Scholar
34. Kadla, Z. I. Positions and proper motions of stars observed with the polar telescope tube at Pulkovo. Astr. Zu., 38, 758, 1961.Google Scholar
35. Kahrstedt, A. Index der Sternörter 1925–1960 (Index II). Band I, Anonymae, 1961. Band II, BD −0° bis BD −22°, 1962. Band V, BD +0° bis BD +10°. Deut. Akad. Wiss. Berlin, Sternw. Babelsberg, Akademie-Verlag, Berlin, 1963.Google Scholar
36. Kovalevsky, J. Sur le calcul des positions apparentes des étoiles circumpolaires. Bull. astr., 24, 75, 1963.Google Scholar
37. Labreque, J. J. The Dominion Observatory mirror transit. J. RAS Can., 57, 25, 1963.Google Scholar
38. Loginov, P. P. On the possible influence of lateral refraction on observational results. Astr. Zu., 40, 944, 1963.Google Scholar
39. Mahan, A. I. Astronomical refraction-Some history and theories. Applied Optics, 1, no. 4, 497, 1962.Google Scholar
40. Marcus, E. About the variation of the optical axis of the meridian circle of Bucharest. Studii si Cere. Astr. si Seism., 7, no. 2, 1962.Google Scholar
41. Meshkova, T. S. The Kazakov star catalogue for the Moscow zenith zone, +50° to +55°. (In Russian). Trud. gos. astr. Inst. Sternberga, 31, 131, 1962.Google Scholar
42. Mikhailov, A. A. Some considerations on the computation of refraction. Astr. Zu., 38, 754, 1961.Google Scholar
43. Murray, C. A., Wilkins, G. A. Progress in astronomy-Fundamental astronomy. ICSU Review, 4, 98, 1962.Google Scholar
44. Nefedieva, A. Results of bright star observations from 1949-53 with the meridian circle of the Engelhardt Astronomical Observatory. Bjull. astr. Obs. Engel’gardta, no. 37, 1962.Google Scholar
45. Nenakhova, E. M. Differential determination of the declinations of 64 stars of the Kasan zenith telescope program. Izv. glav. astr. Obs. Kiev, 3, no. 2, 16, 1961.Google Scholar
46. Nesterov, V. V. Re-evaluation of the Struve method for determining the latitude from transit observations in the prime vertical. Astr. Zu., 40, 373, 1963.Google Scholar
47. Oborneva, A. G. Determination of the diameter corrections for the Repsold meridian circle of the Moscow Observatory in 1961. (In Russian) Soobšč. gos. ästron. Inst. Sternberga, no. 127, 19, 1963.Google Scholar
48. Oborneva, A. G., Podobed, V. V., Hommik, L. M. Work of the Moscow Observatory on the meridian observations and compilation of the catalogue of FKSZ stars in 1953-58. (In Russian) Trud. gos. astr. Inst. Sternberga, 31, 3, 1962.Google Scholar
49. Pauscher, H. Bemerkungen zur Aufstellungsbestimmung zweilagiger Instrumente und die Auswahl günstiger Sterne. Astr. Nachr., 286, 255, 1962.Google Scholar
50. Pilnik, G. P. On the investigation of the ‘Discontinuity in the Zenith’. Astr. Zu., 38, 167, 1961.Google Scholar
51. Pilnik, G. P. The origin of Δαα errors. Astr. Zu., 39, 135, 1962.Google Scholar
52. Pilnik, G. P. Flexure of the transit instrument. Soobšč. gos. astron. Inst. Sternberga, no. 127, 3, 1963.Google Scholar
53. Rusu, I. An investigation of the collimation of the Bucharest meridian circle in function of declination. Studii si Cere. Astr. si Seism., 6, no. 1, 1961.Google Scholar
54. Rusu, I. Redetermination of the value of a revolution of the declination micrometer screw of the meridian circle of Bucharest. Studii si Cere. Astr. si Seism., 7, no. 1, 1962.Google Scholar
55. Rusu, I. An investigation of a device for determining the flexion of the meridian circle of Bucharest. Preliminary results of the flexion. Studii si Cere. Astr. si Seism., 7, no. 2, 1962.Google Scholar
56. Scheepmaker, A. C. Analyse des résultats des observations faites à Curaçao pendant l’Année Géophysique Internationale 1957-58 et recherches effectuées sur l’astrolabe A. Danjon. Pub. on Geodesy, 1, no. 4, Netherlands Geodetic Commission, Delft, 1963.Google Scholar
57. Scott, F. P. Status of the international reference star programs. Astr. J., 67, 690, 1962.Google Scholar
58. Tuzi, K. Tokyo Mitaka catalogue of equatorial stars for the equinox 1950.0 (TME). Ann. Tokyo astr. Obs. (II), 8, no. 1, 1962.Google Scholar
59. Uhink, W. Katalogkorrektionen der Form Δαα aus Zeitbestimmungen mit DurchgangsInstrumenten. Astr. Nachr., 286, 259, 1962.Google Scholar
60. Watts, C. B. The marginal zone of the Moon. Astr. Papers, Am. Eph., 17, 1963.Google Scholar
61. Yasuda, H., Fakaya, R., Hara, H. Meridian observations of the positions of the Moon, major planets, and some principal minor planets during the year 1961. Tokyo astr. Bull. no. 153, 154, 1962.Google Scholar
62. Yasuda, H. On the positions of the stars in Tokyo’s, Mizusawa’s, Washington’s and Richmond’s PZT programs. Ann. Tokyo astr. Obs. (II), 7, 37, 1961.Google Scholar
63. Zverev, M. S. Fundamental astronomy. (English translation of a two-part article, Uspekhi astr. Nauk, 5, 1, 1950, and 6, 123, Acad. Sci. U.S.S.R. Publishing House, 1954. A limited number of copies distributed by the U.S. Naval Observatory.)Google Scholar

Books

64. Kulikov, K. A. Kurs sferičeskoj Astronomii (A Course in Spherical Astronomy). (In Russian). Physics and Mathematics Press, Moscow, 1961.Google Scholar
65. Podobed, V. V. Fundamental’naja Astrometrija. Opredelenie Koordinat Zvezd (Fundamental Astrometry. Determination of Star Co-ordinates). (In Russian). Physics and Mathematical Press, Moscow, 1962.Google Scholar
66. Strand, K.Aa. Stars and Stellar Systems, Vol. III, Basic Astronomical Data. University of Chicago Press, 1963.Google Scholar
67. Explanatory Supplement to the Astronomical Ephemeris and the American Ephemeris and Nautical Almanac. H.M. Stationery Office, London, 1961.Google Scholar
Izvestija Glavnoj Astronomičeskoj Observatorii v Pulkove (Leningrad) 22, no. 168, part 3, 1961. (In Russian with English Abstracts).Google Scholar
68. Baturina, G. D., Naumova, A. A., Polozhentsev, D. D. Some results on the accuracy of the declination with the Toepfer meridian circle, p. 147.Google Scholar
69. Gnevisheva, K., Miao, Yung-jui. The comparison of the Tashkent absolute catalogue of right ascensions of 623 faint stars with PFKSZ, p. 38.Google Scholar
70. Orlov, B. A. On the mean refraction of the Pulkovo Tables of Refraction, p. 51.Google Scholar
71. Pavlov, N. N. A preliminary catalogue of right ascensions of stars observed with the photo-electric transit instrument F-3 at Pulkovo during the I.G.Y., p. 2.Google Scholar
72. Staritsin, G. V. A catalogue of right ascensions of 208 stars, p. 25.Google Scholar
Izvestija Glavnoj Astronomiceskoj Observatarii v Pulkove (Leningrad) 23, No. 171, part 1, 1962. (In Russian with English abstracts).Google Scholar
73. Brovenko, V. Y., Kalinina, O. F., Markina, O. T., Petrov, G. M. Right ascensions of the Sun, Moon (Mösting A), and planets from observations at Nikolajev Observatory during 1960, p. 65.Google Scholar
74. Gordon, Y. E., Gorel, L. F., Dzuba, I. P. Observations of the Moon and major planets with the meridian circle of the Nikolajev Observatory, p. 74.Google Scholar
75. Gorel, G. K., Fedorova, R. T. A catalogue of right ascensions of program stars of the Time Service, p. 31.Google Scholar
76. Kalikhevich, N. S. A catalogue of right ascensions of 299 stars of the general list of U.S.S.R. Time Services obtained from observations during the IGY and IGC with the APM-10 transit instrument at the Nikolajev Observatory, p. 14.Google Scholar
77. Kim, Gun-der. A catalogue of right ascensions of 90 circumpolar stars compiled from observations with the Tashkent meridian circle during 1955-56, p. 57.Google Scholar
78. Nemiro, A. A. On the computation of tg´ and sec´ for the reduction of right ascensions, p. 101.Google Scholar
79. Orlov, B. A. On periodical variations of refraction, p. 81.Google Scholar
80. Petrov, G. M. An investigation of the Freiberg-Kondratjev transit instrument, p. 99.Google Scholar
81. Plugina, A. I., Shishkina, V. N. An observational program of circumpolar stars for the determination of the orientation of the instrument in observations of major planets and the Sun, p. 77.Google Scholar
82. Timashkova, G. M. A catalogue of right ascensions of 122 stars in the declination zone +70° to +90°, observed with the model of the Sukharev horizontal meridian instrument, p. 3.Google Scholar
83. Varina, V. A., Gnevisheva, G. K., Zverev, M. S., Izvekova, A. A. Preliminary results of determination of the diameter errors of the Toepfer meridian circle, p. 85.Google Scholar
Trudy 15. Astrometričeskoj Konferencii SSSR, (Pulkove, 1960), issued in 1963. (In Russian with English abstracts).Google Scholar
84. Afanasyeva, P. M., Platonov, Y. P., Sukhov, V. B. An electronic computing device providing for the registration of signals on a magnetic tape and observational results on punch cards, p. 208.Google Scholar
85. Alekseyev, S. I. A determination of the right ascensions of 323 stars from visual observations during the IGY and IGC, p. 295.Google Scholar
86. Bagildinsky, B. K. A program of absolute observations of fundamental stars in the declination zone −30° to −90°, p. 143.Google Scholar
87. Belorossova, T. S., Maksutov, D. D., Merman, N. V., Sosnina, M. A. The 700 mm meniscus astrometrical telescope, p. 215.Google Scholar
88. Fatchikhin, N. V. On the catalogue of faint stars (KSZ) in connection with the Pulkovo program of observations of galaxies, p. 161.Google Scholar
89. Fleyer, A. G. The application of digital technique for determining the mean time of star transits, p. 204.Google Scholar
90. Kulikov, D. K. Ephemeris of major planets and problems of astrometry, p. 77.Google Scholar
91. Mansurova, K. S. The program of zenith telescope observations for the investigation of the system of declinations of the catalogue of faint stars, p. 193.Google Scholar
92. Nadeyev, L. N. A system of corrections on the right ascensions of FK3 stars from observations at Irkutsk during 1956-59, p. 286.Google Scholar
93. Nefedyeva, A. I. Variations of the nadir and equator points during observations, p. 108.Google Scholar
94. Nemiro, A. A. On the determination of zero points of catalogues and parameters of the Earth’s orbit from meridian observations of the Sun, p. 87.Google Scholar
95. Nemiro, A. A. On the precision of the chain method, p. 176.Google Scholar
96. Nemiro, A. A., Zimmerman, G. K. Instructions for meridian observations of the Sun and major planets, p. 420.Google Scholar
97. Odynskaya, O. K. Some peculiarities of the reduction of declinations of 645 FKSZ stars observed with the Odessa meridian circle, p. 191.Google Scholar
98. Polozhentsev, D. D., Potter, H. I., Streletsky, Y. S. An instrument for photographic positional observations of the Sun, p. 127.Google Scholar
99. Solovyeva, L. A. A determination of the right ascensions of 323 stars from the observations with two transit instruments of the Time Service of the Institute of Metrology, p. 305.Google Scholar
100. Solovyeva, L. A., Germashev, V. V. On the variations of collimation of a transit instrument, p. 274.Google Scholar
101. Solovyeva, L. A., Orlova, A. I. The determination of right ascensions of 328 stars from observations with the photo-electric instrument of the Time Service of the Institute of Metrology, p. 289.Google Scholar
102. Strugatskaya, A. A. Photographic observations of major planets by the Markowitz method, p. 118.Google Scholar
103. Tavastherna, K. N. Meridian observations of the Backlund-Hough stars at the Melbourne Observatory, p. 156.Google Scholar
104. Vasilyev, V. M., Karetnikova, E. N. The catalogue of right ascensions of stars observed at Pulkovo during the IGY and IGC with the Zeiss photo-electric transit instrument no. 14561, p. 279.Google Scholar
105. Zverev, M. S. Several propositions on the improvement of meridian circle procedures, p. 195.Google Scholar
106. Zverev, M. S., Murri, S. A., Miao Yung-jui. On differential determinations of right ascensions with the meridian circle, p. 166.Google Scholar
107. Zverev, M. S., Nemiro, A. A. The observational program of the Soviet astrometrie expedition to the southern hemisphere, p. 132.Google Scholar
108. Zverev, M. S., Timashkova, G. M. The program of bright stars for the southern sky, p. 153.Google Scholar
109. Instructions for differential observations with a meridian circle, p. 422.Google Scholar