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Astronomie De Position

Published online by Cambridge University Press:  25 April 2016

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Copyright © Reidel 1967

References

Bibliography

1. Geschichte des Fixsternhimmeh, Abteilung II, Vols. 18, 19.Google Scholar
2. Index der Sternörter 1925–60, Index II. Band III, IV, V, VI, VII, VIII, IX.Google Scholar
3. Star Catalogue. Positions and Proper Motions of 258 997 stars for the epoch and equinox of 1950.0 (four volumes). Smithsonian Institution Washington, D.C. 1966.Google Scholar
4. Adams, A. N., Scott, D. K., 1964–65, Observations of the Sun, Moon and planets — six-inch transit circle results. U.S. nav. Obs. Circ. no. 103, 105, and 108.Google Scholar
5. Adams, A. N., et al. 1964, Results of observations made with the six-inch transit circle 1949–56. U.S. nav. Obs. Publ. 19, Part 1.Google Scholar
6. Atkinson, R. d'E., Symms, L. S. T,, Blackwell, K. C. 1964, Pivot Errors and Axis Flexure in the seven-inch Cooke Transit Circle. R. Obs. Bull., no. 109.Google Scholar
7. Bacchus, P. 1964, Sur la comparison des catalogues. Ann. Obs. Strasbourg, 6, 75.Google Scholar
8. Bacchus, P., Lacroute, P. 1964, Réduction des observations méridiennes avec ‘synthèse'. Ann. Obs. Strasbourg, 6, 49.Google Scholar
9. Böhme, S., Fricke, W. 1965, Astronomical constants. A survey of determined values. Bull. astr., 25, no. 3, 269.Google Scholar
10. Boshniakovich, N. A. 1965, The precessional constant, parameters of solar motion and galactic rotation in the FK4 system. Bull. astr., 29, no. 2, 119.Google Scholar
11. Brealey, G. A. 1964, The Digital Velocity-Generating Computer for the Dominion Observatory Mirror Transit. Publ. Dom. Obs., 25, 6.Google Scholar
12. Brosche, P., Nowacki, H., Strobel, W. 1964, Systematic differences FK4 - GC and FK4 — N30 for 1950.0. Veröff. astr. Rechen Inst. Heidelberg, no. 15.Google Scholar
13. Brosche, P. 1966, Representation of systematic differences in positions and proper motions of stars by spherical harmonics. Veröff. astr. Rechen Inst. Heidelberg, no. 17.Google Scholar
14. Brouwer, D. 1965, Relations among some important astronomical constants. Bull. Astr., 25, no. 3, 241.Google Scholar
15. Clemence, G. M. 1965, The System of Astronomical Constants. A. Rev. Astr. Astropkys., 3, 93.CrossRefGoogle Scholar
16. Débarbat, S., Kovalevsky, J., 1963, Discussion des observations de Mars faites à l'astrolabe impersonnel A. Danjon. Bull. astr., 24, fasc. I.Google Scholar
17. Débarbat, S. 1966, Discussion des observations de Mars effectuées en 1963 à 1'astrolabe A. Danjon. Bull. astr., 1, (3éme série), fasc. 4.Google Scholar
18. Dick, J. 1966, Gedanken zur Frage eines horizontalen Meridiankreises. Sterne (in press).Google Scholar
19. Eckert, W., Smith, H. F. 1966, The Equations of Variation in a Numerical Lunar Theory, IAU Symposium no. 25, 242.Google Scholar
20. Eichhom, H. 1963, The relationship between standard coordinates of stars and the measured coordinates of their images, Appl. Opt., 2, 17.Google Scholar
21. Eichhom, H., Jefferys, W. H. III. 1963, Algorithm for the rigorous determination of differential astrometric data. Astr.J., 68, 71, Ref. AAS.Google Scholar
22. Eichhom, H., Williams, C. A., 1963, Systematic accuracy of photographic star positions and proper motions. Astr. J., 68, 72, Ref. AAS.Google Scholar
23. Eichhom, H. 1963, On the use of panoramic cylindrical projection in photographic astrometry. Astr. J., 68, 210.Google Scholar
24. Eichhom, H., Williams, C. A, 1963, On the systematic accuracy of photographic astrometric data. Astr, J., 68, 221.Google Scholar
25. Engelbrecht, J. 1966, Das Photo-Zenit-Telescop (PZT) der Sternwarte Babelsberg (Konstruktion und Funktion). Feingerätetechnik 15.1, S. 8–12,Google Scholar
26. Federov, E. P. 1965, Some recent studies of nutation in the U.S.S.R. Bull. astr., 25, no. 2, 125.Google Scholar
27. Fricke, W. 1965, The influence of proper motion systems on the determination of Statistical Parallaxes. Vistas in Astronomy, 8, 205.CrossRefGoogle Scholar
28. Fricke, W. 1965, Astronomical constants as an object of recent research. Inaugural address delivered at the IAU Symposium no. 21. Bull. Astr., 25, no. 1, 5.Google Scholar
29. Fricke, W. 1965, Ein Vergleich der Entfemungsskalen verschiedener Eigenbewegungs-systeme. Z. Astropkys., 61, 20.Google Scholar
30. Gliese, W. 1965, Stability of systems of positions obtained with transit instruments, derived from fluctuations in the α∂-systems. Astr. J., 70, 162.CrossRefGoogle Scholar
31. Gliese, W. 1966, Cape Catalogue of Circumpolar Stars for the Equinox 1950.0. R. Obs, Bull., no. 106.Google Scholar
32. Heinemann, K. 1964, Verzeichnis von Sternkatalogen 1900–62. VerSff. astr.. Rechen Inst. Heidelberg, no. 16.Google Scholar
33. Hemenway, P. D. 1966, Washington six-inch transit circle. Sky Telese., 31, 72.Google Scholar
34. Höpfner, J. 1966, Sternkoordinatenkorrektionen aus dem Beobachtungsmaterial am Astrolab Danjon. Geod. Inst. Potsdam, Arbeiten Nr. 12.Google Scholar
35. Hurukawa, K. On the precise calculation of the apparent places of fixed stars using the rectangular coordinates. Proc. Intern, hat. Obs. Mizusawa, Nr. 3., S. 69–92 (Japan, mit. Engl. Ref.).Google Scholar
36. Hurukawa, K. On the precise calculation of the apparent places of fixed stars using the rectangular coordinates (II). Proc. Intern. hat. Obs. Mizusawa, Nr. 4, S 73–80 (Japan, mit. Engl. Ref.).Google Scholar
37. Jefferys, W. H. III. 1963, On computational technique for photographic astrometry with overlapping plates. Astr. J,, 68, 111.CrossRefGoogle Scholar
38. Kirschner, H. Katalogkorrektionen der Form Δαα des FK4 (in press).Google Scholar
39. Klock, B. L., Scott, D. K. 1965. An investigation of the coefficients to periodic term 182 of Brown's lunar theory. Astr. J., 70, 335.CrossRefGoogle Scholar
40. Klock, B. L. Instrumentation program for an improved meridian circle at the U.S. Naval Observatory (Abstract). Astr. J., 71 (in press).Google Scholar
41. Kopff, A., Nowacki, H., Strobel, W., Mürle, A. 1964, Formeln und Tafeln zur differentiellen Präzession und zur Übertragung von Eigenbewegungen. Veröff. astr. Rechen Inst. Heidelberg, no. 13.Google Scholar
42. Kopff, A., Nowacki, H., Strobel, W. 1964, Individual corrections to FK3 and the declination system of the Fourth Fundamental Catalogue (FK4). Verqff. astr. Rechen Inst. Heidelberg, no. 14.Google Scholar
43. Labrecque, J. J, 1960, A Schmidt Camera built at the Dominion Observatory. J. R. astr. Soc. Can., 54, 2.Google Scholar
44. Lacroute, P. 1964, Etude des erreurs systématiques à craindre dans l'établissement d'un catalogue méridien relatif. Ann. Obs. Strasbourg, 6, 33.Google Scholar
45. Lacroute, P. 1964, Amélioration dans les réductions d'un catalogue méridien, meéthode de ‘syntheseé. Ann. Obs. Strasbourg, 6, 39.Google Scholar
46. Lacroute, P. 1964, Etude externe des observations méridiennes de Strasbourg. Ann. Obs. Strasbourg, 6, 85.Google Scholar
47. Lacroute, P. 1964, Amélioration des constantes de clichés en utilisant leur recouvrement. Ann. Obs. Strasbourg, 6, 97.Google Scholar
48. Lacroute, P. 1964, Etude sur l'établissement d'un catalogue photographique. Ann. Obs. Strasbourg, 6, 113.Google Scholar
49. Loeser, H. G. 1964, Eine neue Tabelle der Normalrefraktion und die Berechnung der Refraktion nach Sondenaufstiegen der Wetterämter. Deutsche Geod. Kommission, Reihe D, Nr. 6.Google Scholar
50. Maître, V. 1965, Troisième Catalogue de I'Observatoire de Besancon. Ann. Obs. Besanfon, 6, fasc. 6.Google Scholar
51. Melchior, P. 1965, Déduction du Phénomène de Précession-Nutation de la Marée Terrestre. Commun. Obs. r, Belgique, no. 240.Google Scholar
52. Melchior, P. 1966, Détermination expérimentale des effets dynamiques au noyau liquide de la Terre dans les marées terrestres diurnes. Commun. Obs. r. Belgique, Série B, no. 4.Google Scholar
53. Menzies, A. 1966, Astronomy of Position. Mon. Notes astr. Soc. Sth, Afr., 25, 59.Google Scholar
54. Pilowski, K., Soltau, G. 1963, Zur Fixierung der Kippachse eines transportablen Pas- sageinstrumentes. Mitt. astr. Ges., p. 116.Google Scholar
55. Pilowski, K. 1963, Zur Verwendung transportabler Meridiankreise für fundamentale Positionbestimmungen. Mitt. astr. Ges.t p. 117.Google Scholar
56. Pjaskowskij, D. W. 1964, Lehrbuch der sphärischen Astronomie für Astronomiestudcnten der Ukrainischen Universitäten. Kiew Univ., Kiew. 136S. Preis 26 Kop. (Russ.)Google Scholar
57. Podobed, V. V. 1965. Fundamental astrometry, Translated from the Russian by Scripta Technica, Inc. English translation edited by Vyssotsky, A. N., Univ. Chicago Press, Chicago.Google Scholar
58. Poloshenzew, D. Astrometrie — Wissenschaft der Genauigkeit. Vasiona 12, 49–52 (Serb.- Kroat.).Google Scholar
59. Proverbio, E. Riduzione degli errori sistematici nelle osservazioni meridiane di tempo e di longitudine. Mem. Soc. astr. ital., 35, 183 = Contr. Oss. astr. Milano-Merate (NS) Nr, 229.Google Scholar
60. Requième, M. 1965, (automatic registration of star transits). C. r. Acad. Sci. Paris, 260, 2421.Google Scholar
61. Scott, F. P. 1963, Estimates of the accuracy of positions taken from photographic star catalogues, present and future. The use of Artificial Satellites for Geodesy. Symposium, Washington D.C., 26–28 April 1962, North Holland Publ. Co., Amsterdam.Google Scholar
62. Scott, F. P. 1963, The system of fundamental proper motions. In Stars and Stellar Systems, III, Basic Astronomical Data, Ch. 2, Univ. Chicago Press.Google Scholar
63. Scott, F. P. 1964, Limitations imposed on celestial navigation due to inaccuracies of star positions. Navigation, 2, 20.CrossRefGoogle Scholar
64. Scott, F. P., Hughes, J. A., 1964, Computation of apparent places for the southern reference star program. Astr. J., 69, 368.CrossRefGoogle Scholar
65. Scott, F. P. 1964, A method of evaluation of the elliptic E terms of aberration. Astr. J., 69, 372.CrossRefGoogle Scholar
66. Ševarlic, B., Teleki, G. 1959, Le programme de détermination de déclinaisons des 36 étoiles à la lunette zénithale. Bull. astr. Obs. Belgrade, 24, no. 3–4, 27.Google Scholar
67. Slaucitajs, S. J. 1963, Astronomical Refractión Constant, Refraction Index and Expansion Coefficient and Optical Density of the Air. Inf. Bull. Southern Hemisphere, no. 4.Google Scholar
68. Slaucitajs, S. J. 1963, Sobre la Constante de Refracción Astronómica, el Indice de Refracción, el Coeficiente de Dilatación y la Densidad Optica del Aire. Asoc. argent. Astr. Bol.t no. 6, 1964.Google Scholar
69. Stoy, R. H. 1966, Cape Photographic Catalogue for 1950.0. Zones — 64° to — 80°. Cape Annals, 21.Google Scholar
70. Teleki, G. 1966, Declination System of Latitude Stars. Astr. Zu., 43, no. 3, 678.Google Scholar
71. Thomas, D. V. 1964, Results obtained with a Danjon Astrolabe at Herstmonceux, I. R. Obs. Bull,, no. 92.Google Scholar
72. Thomas, D. V. 1965, The Astrolabe for the Cape Observatory. Mon. Notes, astr. Soc. Sth Afr., 24, 36.Google Scholar
73. Thomas, D, V. 1966, Results of Observations made with the Danjon Astrolabe O.P.L. no. 11 at the Cape. Mon. Notes astr. Soc. Sth. Afr., 25, 115; 146; 172.Google Scholar
74. Thomas, D. V. Group Corrections and the Optimization of an Observing Programme. R. Obs. Bull, (in press).Google Scholar
75. Thomson, M. M. 1960, Positional Astronomy, Dominion Observatory..?. R. astr. Soc. Can., 54, 2.Google Scholar
76. van Herk, G. Hoe is de stand in de astrometrie? Hemel en Dampkring, 61, 101.Google Scholar
77. Wayman, P. A.. Symme, L. S. T., Blackwell, K. C. 1963, Proper Motions and Radial Velocities of Hyades Stars. R. Obs. Bull., no. 98.Google Scholar
78. Wilkins, G. A. 1965, Review of the system of astronomical constants. Bull. astr., 25, no. 3, 251.Google Scholar
79. Weller, W. J. 1964, Rapid Computer Search Technique for Astronomical Catalogues. Publ. astr. Soc. Pacific, 76, 152.CrossRefGoogle Scholar
80. Wood, H, 1963, Positional astronomy. The Donovan astronomical lecture for 1963. J. Proc. R. Soc. Nero South Wales, 97, 135 = Sydney Obs. Papers Nr. 47.CrossRefGoogle Scholar
81. Woolard, W. W., Clemence, G. M. 1966, Spherical AstronomJ. Academic Press, New York.Google Scholar
82. Woolsey, E. G. 1964, Catalogue Contributions of the Ottawa Meridian Circle. J. R. astr. Soc. Can., 58, 2.Google Scholar
83. Woolsey, E. G. 1966, Results of Observations made with the Reversible Meridian Circle 1956–61. Catalogue of 3753 AGK3 Reference Stars. Corrections to 930 FK3 Stars. Publ. Dom. Obs., as, no. 8.Google Scholar
84. Woolsey, E. G. 1966, Results of Observations made with the Reversible Meridian Circle 1954–62. Catalogue of 2665 Stars. Publ. Dom. Obs., 25, 9.Google Scholar
85. Yasuda, H. et al. 1963, Meridian observations of the positions of the Moon, major planets, and some minor planets during the year 1962. Tokyo astr. Bull., no. 161.Google Scholar
86. Yasuda, H., Hara, H. 1964, Meridian Observations of the positions of the Moon, major planets, and some bright minor planets during the year 1960. Tokyo astr. Bull.,, no. 162.Google Scholar
87. Yasuda, H. 1964, A method for determining die systematic corrections to a fundamental catalogue from the differential observations of planets. Publ. astr. Soc. Japan, 16, 45.Google Scholar
88. Yasuda, H., Hara, H. 1964, The catalogue of 240 stars in the PZT programs of Mizusawa, Richmond, Tokyo and Washington. Ann. Tokyo astr. Obs., (II), 8, 162.Google Scholar
89. Fragen der Astrometric. Herausgegeben vom Astr. Hauptobs. Akad. Wiss. Ukrain SSr. Kiew ‘Naukowa Dumka’, 1964. 96S. Preis 38 Kop. (Russ.)Google Scholar
90. Anonym. 1965, Geodätische Astronomie. II. Internationales Kolloquium. Wiss. Z. techn. Univ. Dresden, 14, 635 = Mitt. de. Lokrmann-Institutes, Nr. 11.Google Scholar
91. Preliminary Supplement to the FK4 (FK4 Sup.) 1963, Veroff. astr. Rechen Inst. Heidel- berg, no. 11.Google Scholar
92. Proceedings of Conference on Construction and Use of Star Catalogs, held at the University of Maryland, College Park, Md, 3–5 October 1966, to be published in a forthcoming issue of the Astr. J. Google Scholar

Bibliography

In Izv. glav. astr. Obs. Pulkovo (Leningrad), 23, no. 174, Part 4, 1964 (In Russian with English abstracts).

1. Baturina, G. D., Bedin, V. S., Varina, V. A., Gnevyscheva, K. G., Zverev, M. S., Izvekova, A. A., Murri, S. A., Naumova, A. A., Polozhentsev, D. D. Observations of AGK3R Stars with the Toepfer Meridian Circle at Pulkovo.Google Scholar
2. Zverev, M. S., Murri, S. A. On the System of Right Ascensions of the Toepfer Meridian Circle.Google Scholar
3. Baturina, G. D, The System of Declinations of the Toepfer Meridian Circle.Google Scholar
4. Baturina, G. D., Varina, V. A., Gnevyscheva, K. G., Naumova, A. A., Polozhentsev, D. D. The Method of Reduction of Differential Observations of Declinations by Means of ,, Punch-Card Machines.Google Scholar
5. Varin, M. P. The Application of Electronic Computers for Computations of the Apparent Places of Stars.Google Scholar
6. Petrov, G. M. On the Determination of the Absolute Azimuth and Inclination of the Transit Instrument.Google Scholar
7. Kim Gun-der A Determination of the Right Ascensions of 88 Circumpolar Stars.Google Scholar
8. Petrov, G. M. On the Determination of the Collimation Error of a Transit Instrument.Google Scholar
9. Bagildinsky, B. K., Kossin, G. S., Medvedeva, L. I. An Investigation of the Flexure of the Struve-Ertel Vertical Circle at Pulkovo.Google Scholar
10. Markina, O.T. Results of Utilisation of a Mirror Filter for Observations of the Sun.Google Scholar
11. Medvedeva, L. I. Preliminary results of observations of polarissima BD + 89°3 with the Pulkovo Vertical Circle.Google Scholar
12. Brovenko, V. Y., Kalinina, O. F., Markina, O. T., Petrov, G. M., Fedorova, R. T. The Right Ascensions of Bodies of the Solar System Determined from Observations with the Freiberg-Kondratyev Transit Instrument at the Nikolayev Observatory during 1961.Google Scholar
13. Gordon, Y. E., Gorel, L. F., Dzuba, I. P. Observations of the Sun, Moon and Major Planets with the Meridian Circle at the Nicolayev Observatory. tGoogle Scholar
14. Ilkiv, M. I. An Improved Photoelectric Device for the Registration of Star Transits.Google Scholar
15. Ivakin, V. M., Ilkiv, M. I, An Electronic-Mechanical Device for the Determination of the Mean Moments of Star Transits.Google Scholar
16. Zimmermann, H. K. Über einen Fall der Bestimmung von systematischen Differenzen.Google Scholar
17. Brovenko, V. Y. Results of Photographic Observations of Uranus and Neptune at the Nicolayev Observatory during 1961–62.Google Scholar
18. Bronnikova, N. M, Koroleva, L. S., Strugatskaya, A. A., Chudivicheva, O. N. Precise Positions of Minor Planets from Photographic Observations at Pulkovo.Google Scholar
19. Kiseleva, T. P., Sokolova, L. A., Koroleva, L. S. Precise Positions of Minor Planets from Photographic Observations at the Cape Observatory.Google Scholar
20. Kalihevich, Th, Th. Results of Photographic Observations of Minor Planets at the Nikolayev Observatory.Google Scholar
21. Chudovicheva, O. N. Results of Photographic Observations of the Minor Planet Iris at the Nikolayev Observatory.Google Scholar
22. Sokolova, V. A. The Program for Computations of Precise Positions of Minor Planets by Means of an Electronic Computer.Google Scholar
23. Nemiro, A. A. Astrometry at Pulkovo (1945–63).Google Scholar
24. Gordon, Y. E. The Nikolayev Branch of the Pulkovo Observatory (Fifty Years since its Foundation).Google Scholar
25. Semenov, L. I. Observations Made with the Freiberg Transit Instrument during the Past 50 Years. Google Scholar
26. Zimmerman, G. K. The Determination of Declinations with the Vertical Circle of the Nikolayev Branch of the Pulkovo Observatory during Fifty Years.Google Scholar
27. Gordon, Y. E., Gorel, L. F. Observations of AGK3R Stars with die Repsold Meridian Circle at the Nikolayev Observatory.Google Scholar
28. Konin, V. V. The Practical Application of Zimmerman's Method for the Investigation of the System of an Instrument.Google Scholar
29. Polojentsev, D. D. Computations of Refraction from the Pulkovo Tables by Means of Automatic Computers.Google Scholar
30. Petrov, G. M. .On one Systematic Error of an Eyepiece Micrometer.Google Scholar
31. Ilkiv, M. I. A Balance Scheme for Increasing the Stability of a Photoelectric Device for Registration of Star Transit.Google Scholar
33. Kiseleva, T. P. Photographic Positions of Mars obtained with Pulkovo Short-Focus Astrograph during 1960–61.Google Scholar

In Izv. glav, astr. Obs. Pulkovo (Leningrad), 24, no. 179, Part 3, 1966 (In Russian with English abstracts).

33. Pljugina, A. I. The System of Right Ascensions of the Equatorial Stars of the New Polkovo Absolute Catalogue.Google Scholar
34. Kossin, G. S. A Comparison of the Catalogue of Declinations Pu50F and Pu50Z with the Fundamental Systems.Google Scholar
35. Kossin, G. S. The Observations of the Sun and Planets made with the Vertical Circle of the Pulkovo Observatory.Google Scholar
36. Medvedeva, L, I. The Investigations of the Divisions of the Struve-Ertel Vertical Circle of the Pulkovo Observatory made in Connection with Observations of Polarissima BD + 89°3.Google Scholar
37. Godisov, N. P. The Program of Observations made with the Danjon Prismatic Astrolabe at the Pulkovo Observatory.Google Scholar
38. Ivakin, V. M., Ilkiv, M. I., Nechaev, V. M., Tilk, E. M. An Electronic Mounting for the Measurement of the Photographs of a Limb.Google Scholar
39. Bedin, V. S. The Determination of the Aberrational Constant from Latitude Observations at Pulkovo during 1920–28.Google Scholar
40. Zverev, M. S., Naumova, A. A., Naumov, V. A., Torres, K. The Preliminary Results of Observations with the Pulkovo Photographic Vertical Circle.Google Scholar
41. Naumov, V. A. Instrumental Errors of the Photographic Vertical Circle.Google Scholar
42. Gnevysheva, K. G. The Operation of the Toepfer Meridian Circle during 50 years.Google Scholar
43. Baturina, G. D., Gnevysheva, K. G., Chubey, M. S. The Right Ascensions of the Sun, Mercury, Venus and Mars obtained from Observations with the Toepfer Meridian Circle of the Pulkovo Observatory during 1961.Google Scholar
44. Kossin, G. S. The Results of Observations of the Sun and Planets with the Vertical Circle at Pulkovo.Google Scholar
45. Bozhko, I. I. The Day-Time Observations with the Vertical Circle of the Nikolayev Observatory.Google Scholar
46. Ilkiv, M. I. Preliminary Results of Observations of the Right Ascensions of Major Planets by Photoelectric Method.Google Scholar
47. Kossin, G. S. The Results of the Reduction of Observations of the Sun made with the Vertical Circle of the Pulkovo Observatory during 1956–63.Google Scholar
48. Isvekova, A. A. The Most Advantageous Distribution of Reference Stars for the Meridian Observation of Right Ascensions.Google Scholar
49. Konin, V. V. The Reduction of Meridian Observations using the Results of the Stars under Determination.Google Scholar
50. Varin, M. P. The Computation of the Bessel Reduction Values with Electronic Computers.Google Scholar
51. Brovenko, V. G., Kalikhevich, F. F. The Photographic Observations of Major Planets of the Nicolayev Observatory during 1961–62. In Trudy glav. astr. Obs. Pulkovo (Leningrad), Ser. II, 74, 1966 (In Russian with English abstracts). Google Scholar
52. Semenov, L. I. Right Ascensions of the Sun, Moon and Large Planets as derived from Observation at the Nikolayev Observatory during 1939–59.Google Scholar
53. Petrov, G. M., Dzjuba, I. P. Right Ascensions of the Solar System Bodies from Observa- tions with the Freiberg-Kondratiev Transit Instrument at the Nikolayev Observatory during 1954–59.Google Scholar
54. Parshin, S. N. The Catalogue of Absolute Right Ascensions of the 135 Circumpolar Stars compiled from Observations made by Lebedev, S. S. and Sokolov, A. P. during 1892–95.Google Scholar
55. Afanasjeva, P. M., Pavlov, N. N., Staritsyn, G. V. A Catalogue of Right Ascensions of the 508 Stars obtained from Observations with the F–3 Photoelectric Transit Instrument at the Pulkovo Observatory during IGY and IGC.Google Scholar
56. Afanasjeva, P. M., Pavlov, N. N., Staritsyn, G. V. The Reference Catalogue of Right Ascensions of 513 Stars for the General Catalogue of the U.S.S.R. Time Services.Google Scholar
57. Chelombitko, A. P. The Catalogue of Right Ascensions of 431 Stars Obtained with the New Transit Instrument Π Π И-I at the Pulkovo Observatory during 1959–63.Google Scholar
58. Karetnikova, E. N. The Reduction of the Zenith Stars of the Catalogue by the Chain Method.Google Scholar
59. Vassiljev, V. M., Karetnikova, E. N. The Catalogue of Right Ascensions of 501 Stare, obtained from Observations with the Photoelectric Zeiss Transit Instrument N 14 561 during the IGY at Pulkovo.Google Scholar
60. Gordon, Y. E., Gorel, L. F., Dzjuba, I. P., Kalinina, O. F. The Catalogue of Right Ascensions and Declination of the AGK3R Stars Compiled at Nikolayev from Observations with the Meridian Circle.Google Scholar

In Trudy glav. astr. Obs. Pulkovo (Leningrad). Ser. II, 76, 1966 (In Russian with English abstracts).

61. Kossin, G. S., Bagildinaky, B. K. The Results of Observations of Bright and Faint Fundamental Stars with the Vertical Circle of the Pulkovo Observatory.Google Scholar
62. Kalinina, O. F., Mariana, O. T., Petrov, G. M., Fedorova, R. T. The Right Ascensions of the Sun, Moon, Mosting A and Major Planets observed with the Transit Instrument at Nikolayev during 1962.Google Scholar
63. Kalinina, O. F., Markina, O. T., Petrov, G. M., Fedorova, R. T. The Right Ascensions of the Sun, Moon, Mösting A and Major Planets observed with the Transit Instrument at Nikolayev during 1963.Google Scholar
64. Markina, 0. T., Petrov, G. M. The Right Ascensions of the Sun, Mercury, Venus and Mars observed with the Transit Instrument at Nikolayev during 1964.Google Scholar
65. Gordon, Y. E., Gorel, G. K., Gorel, L. F. The Results of Observations of the Sun, Moon and Major Planets made with Meridian Circle at Nikolayev during 1962–63.Google Scholar
66. Bozjko, I, I., Zimmerman, G. K. The Declinations,of the Sun, Moon and Major Planets in the FK4 System, obtained with the Vertical Circle of the Nikolayev Observatory during 1961–62.Google Scholar
67. Bozhko, I. I., Zimmerman, G. K. The Declinations of the Sun, Moon and Major , Planets in the FK4 System obtained with the Vertical Circle of the Nikolayev Observatory during 1963–64.Google Scholar

In Trudy 16. astrometr. Konf. SSSR (Kazan, 1963), issued in 1965 (In Russian with English abstracts).

68. Nemiro, A. A. The Determination of Positions of Stars of Special Programs at the U.S.S.R. Observatories.Google Scholar
69. Tavaatsherna, K. M, Problems of Meridian Astrometry discussed at the IAU XIth General Assembly and Organization of Observations of Reference Stars of the Southern Sky.Google Scholar
70. Zverev, M. S. The Work of the Pulkovo Astronomers in Chile.Google Scholar
71. Izvekov, V. A., Izvekova, A. A. The Determination of Parameters of the Meridian Circle with the Б ∋ C M–2.Google Scholar
72. Nenakhova, E. M. The Program of Observations of PZT Stars.Google Scholar
73. Angita, C, Zverev, M. S. Preliminary Results of Observations with the Repsold Meridian Circle of the Cerro-Calan Observatory (Chile).Google Scholar
74. Petrov, G. M. Meridian Observations, of the Sun and Major Planets.Google Scholar
75. Kossin, G. S. Day-Time Observations of Stars.Google Scholar
76. Deutsch, A. N. Photographic Determinations of Positions of Major Planets.Google Scholar
77. Strugatskaja, A. A, Photographic Observations of Venus made at the High-Altitude Solar Station of the Pulkovo Observatory.Google Scholar
78. Onegina, A. B., Sereda, E. M. A Determination of Positions of Mars and Deimos.Google Scholar
79. Brovenko, B. Y. Photographic Observations of Major Planets with the Nicolayev Zonal Astrograph.Google Scholar
80. Kabaeva, N. N. Experimental Photography of Jupiter with the Wide-Angle Astrograph of the Sternberg Astronomical Institute.Google Scholar
81. Zysjakova, R. F. An Application of the Local Desensibilization Method for Positional Obseivations of Planets.Google Scholar
82. Sharonov, V. V. Photographic Irradiation as a Source of Errors of Astrometric Observations of the Moon and Planets.Google Scholar
83. Jakovkin, A. A., Demenko, I. M., Miz, L. M. The Formulas and Methods of Practical Astrometry on the Moon.Google Scholar

In Soobšč. gos. astr. Inst. P. K. Sternberga , no. 145, 1966.

84. Oborneva, A. G. Investigation of Local Parts of the Limb of the Repsold Meridian Circle using Podobed's Method.Google Scholar
85. Hommik, L. M. On the Determination of the Inclinations of the Horizontal Threads.Google Scholar
86. Kosina, O. A., Kabaeva, N. N., Guljaev, A. P., Podobed, V. V. Observations of the Right Ascensions of the Sun and Major Planets with the New Meridian Circle.Google Scholar
87. Guljaev, A. P. Notes on the Weights of the Catalogues with regard to Accidental Errors.Google Scholar

In Astr. Zu., 40, (1963), 41, (1964), 43 (1965) (In Russian with English abstracts).

88. Mtkhailov, A. A. 1963, On the Constant of Aberration and Solar Parallax. 40, no. 6.Google Scholar
89. Efimov, A. A. 1964, A Photoelectric Spiral Micrometer for Limb Readings. 41, no. 3.Google Scholar
90. Blinov, N. S. 1964, A Possible System of the General Catalogue of U.S.S.R. Time Service. 41, no. 5.Google Scholar
91. Zverev, M. S. 1964, A Photographic Method for the Determination of the Corrections of all the Diameters of a Divided Circle, 41, no. 6.Google Scholar
92. Kiselev, A. A. 1965, A Vector Interpretation of the Main Methods of Photographic Astrometry. 42, no. 2.Google Scholar
93. Kulikov, K. A. 1965, The System of Astronomical Constants. 42, no. 3.Google Scholar
94. Zverev, M. S. 1965, The Determination of Systematic Errors of a Fundamental Catalogue from Meridian Observations of Series of Fundamental Stars. 42, no. 4.Google Scholar
95. Podobed, V. V., Nesterov, V. V. 1965, Astrometry. 42, no. 5.Google Scholar

In Voprocy Astrometrii, ‘Naukova Dumka', Kiev, 1966 ﹛In Russian zvith English abstracts).

96. Kharin, A. S. On the Improvements of Differential Catalogue in Systematic and Accidental Respects.Google Scholar
97. Korol, A. K., Nenakhova, E. M. Coordinates of the Polarissima BD + 89°3 from Observations with the Vertical Circle at Goloseyevo.Google Scholar
98. Nechayev, V. M. Catalogue of Declinations of KSZ2 Stars in the Zone — 120 to — 200.Google Scholar
99. Cherniev, L, F. Proper Motions in Declination of Ciicumpolar Stars.Google Scholar
100. Zoteyev, E. S. Investigation of the Graduation Errors of the Meredian Circle of the Odessa Astronomical Observatory in Degree Diameters.Google Scholar
101. Kharin, A. S. A Method for Simultaneous Determination of a Level Constant and the Periodic Errors of the Screw of a Level Trier.Google Scholar
102. Volianskaya, M. U. Tables of Annual Variation of the Star Constants ‘a’ and ‘a”. Google Scholar

In Figura i dvizhenie Luny. ‘Naukova Dumka’ Kiev 1965 (In Russian with English abstracts).

103. Duma, D. P. On the Determination of Equinox Corrections from Lunar Observations by Newcomb's Method.Google Scholar
104. Duma, D. P. On the Effect of Errors of the Elements of the Moon's Orbit on the Determination of Zero Points of Fundamental Catalogues.Google Scholar
105. Duma, D. P. Determination of the Equinox Correction from Observations of the Crater Moesting A.Google Scholar
106. Kharin, A. S. A Catalogue of Declinations of Zenith-telescopes’ Program Stars in the FK4 System for the Epoch of Observations and Equinox 1950·0 (In Russian). Published by the Glav. Astr. Obs, Akad. Nauk Ukrainskoy SSR, 1963.Google Scholar
107. Drofa, V. K., Tchemaga, N. A. Catalogue of Positions of Faint Stars in the PFKSZ System (Zone + 10° to + 30°). (In Russian). Kiev University Press, 1964.Google Scholar

In Visttik Kijvsk. Univ., no. 6, Ser. Astr. (In Ukrainian with Russian abstracts), Kiev, 1964.

108. Drofa, V. K., Tchernega, N. A. Corrections to the Right Ascensions and Declinations of the 242 Stars of PFKSZ. p. 56.Google Scholar
109. Gregul, A. J. Investigations of the Pivots of the Meridian Circle of the Kiev Astronomical Observatory, p. 62. Google Scholar
110. Gregul, J. On the Methods of Reductions of Circumpolar Stars Observations, p. 68.Google Scholar

In Visnik Kijvsk. Univ., no. 7, Ser. Astr. (In Ukrainian with Russian abstracts), Kiev, 1966.

111. Tchernega, M. Y. The Determination of the Diameter Corrections of the Meridian Circle of the Kiev Astronomical Observatory, p. 87.Google Scholar
112. Gregul, A. J, Catalogue of the Right Ascensions of 197 Polar Stars, p. 97.Google Scholar
113. Gregul, A. J. The Determination of the Proper Motions in Right Ascensions of the 79 Polar Stars, p. m.Google Scholar
114. Nefedyeva, A. J. 1966, Differential Catalogue of 2288 KSZ Stars. Kazan. Izv. astr. Obs. V. P. Engel'gardta, no. 33.Google Scholar

In Uchenye Zapiski. hat. Gos. Univ. im Petra Stucki, 68 (In Russian with English abstracts), Riga, 1964.

115. Cirulis, K. A. A photoelectric Device for Registration of Star Transit.Google Scholar
116. Steins, K. A., Rose, L. A. A photoelectric Device with two Independent Photocascades for Registration of Star Transits.Google Scholar
117. Abele, M. K. The Project of a Photoelectric Zenith Tube.Google Scholar
118. Bykov, M. F. 1961, Catalogue of the Absolute Right Ascensions of the 623 Faint Stars in the FK3 System. Published by the Acad. of Uzbek. SSR.Google Scholar
119. Kim, Gun-der, Borodicki, I. M. 1964, Catalogue of Right Ascensions of 814 KSZ, Stars in Zone — 10° to — 15° of Declination. Cirk. Tashk. astr. Obs., no. 325.Google Scholar

In Trudy Tachk. astr. Obs., Ser. II, 10, (Issledovania po Astrometrii) (In Russian), Taschkent, 1964.

120. Jacevich, B. V. Catalogue of the Right Ascensions of 190 Stars of the Time Service List, Observed at the Transit Instrument A Π M–10 in Taschkent. p. 7.Google Scholar
121. Rachimov, A. G. Proper Motions of Stars in 23 Selected Areas, p. 31.Google Scholar
122. Borodicky, I. M. Investigation with the Interferometer of the Pivots of the Taschkent Meridian Circle, p. 87.Google Scholar
123. Tununov, O. 1966, The Investigation of the Temperature Coefficient of Collimation of the Taschkent Meridian Circle. Cirk. Tashk. astr. Obs., no. 335 (in Russian).Google Scholar
124. Zaugolnikova, I. G. 1966, A Differential Catalogue of the Right Ascensions of 331 Bright Stars in Zone — 10° to — 20° of Declination. Cirk. Tashk. astr. Obs., no, 336 (in Russian).Google Scholar
125. Chodak, G. G. 1966, A Differential Catalogue of Right Ascensions of 337 Bright Stars in Zone o° to + 10° of Declination. Cirk. Tashk. astr. Obs., no. 338 (in Russian).Google Scholar
126. Podobed, V. V. 1966, On the Observations of the Stars in the Latitude Programs with the Meridian Circle and Zenith Telescope. In Diskyssia Resultatov Shtrotnyh nabljudemi, Taschkent. Google Scholar

Varia

127. Perezhogina, T. P. 1964, Observations of the Minor Planets by wide-angle Astrograph in the Moscow Observatory. Bjull. Inst. teor. Astr., 9, no. 9, 617.Google Scholar
128. Kisseleva, T. P., Koroleva, L. S., Sokolova, V. A. 1965, Accurate Photographic Positions of Minor Planets observed at Cape Observatory and measured at Pulkovo. Bjull. Inst. teor. Astr., 10, no. 1, 76.Google Scholar
129. Bronnikova, N. M., Kiseleva, T. P., Strugatskaya, A. A., Chudivicheva, O. N., 1965, Accurate Photographic Positions of Minor Planets observed at Pulkovo. Bjull. Inst. teor. Astr., 10, no. 1, 81.Google Scholar
130. Ivaluna, T. Y., Kalikhevich, F. F., Fedorova, R. T, 1965, Results of Photographic Observations of Minor Planets at the Nikolayev Observatory. I. Bjull. Inst. teor. Astr., 10, no. 2, 164.Google Scholar
131. Perezhogina, T, P. 1965, Photographic Observations of the Minor Planets by Wide-angle Astrograph in the Moscow Observatory. Bjull. Inst. teor. Astr., 10, no. 5, 380.Google Scholar
132. Alieva, N., Ischmuhamedov, H., Primkulov, S, 1966, Accurate Positions of Minor Planets according to Photo Observations with Astrographic Telescope in Taschkent in 1956–61. Bjull. Inst. teor. Astr., 10, no. 8, 552.Google Scholar
133. Alieva, N. 1966, Accurate Positions of Minor Planets According to Photo Observations with Astrographic Telescope in Taschkent in 1962. Bjull. Inst. teor. Astr., 10, no. 8, 566.Google Scholar

Books

134. Zagrebin, D. V. 1966, Vvedenie v astrometriju (The Introduction to Astrometry) (In Russian), ‘Nauka’.Google Scholar