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42. Commission des Etoiles Doubles Photometriques

Published online by Cambridge University Press:  16 November 2021

D. J. K. O’Connell*
Affiliation:
Direttore della Specola Vaticana, Castel Gandolfo, Vatican City State

Abstract

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Type
Meeting Report
Copyright
Copyright © Academic Press 1962 

References

1. Binnendijk, L. Properties of Double Stars, Philadelphia, 1960.Google Scholar
2. Kopal, Z. Close Binary Systems, International Astrophysics Series, vol. 5, London, 1959.Google Scholar
3. Gaposchkin, S. The Eclipsing Binaries, Handb. Phys. 50, 225, Berlin, 1958.Google Scholar
4. Abrami, A., Descrizione di un amplificatore per la misura di piccole correnti fotoelettriche, Mem. Soc. astr. Ital. 30, 228, 1959 = Trieste Obs. Contr. 288.Google Scholar
5. Cocito, C. and Masani, A. Il fotometro fotelettrico dell’Osservatorio astronomico di Torino, Mem. Soc. astr. Ital. 31, 135, 1960.Google Scholar
6. Pinto, G. Il fotometro fotoelettrico dell’Osservatorio di Asiago, Contr. Asiago 101, 1959.Google Scholar
7. Popper, D. M. Basic Data on Absolute Dimensions from Eclipsing Binaries, Mém. Soc. Sci. Liège (5) 3, 96, 1959.Google Scholar
8. Szafraniec, R. Minima of Eclipsing Variables Observed in 1956, Acta. astr. Cracoviae 7, 188, 1958.Google Scholar
9. Szafraniec, R. Minima of Eclipsing Variables Observed in 1957, Acta astr. Cracoviae 8, 189, 1958.Google Scholar
10. Szafraniec, R. Minima of Eclipsing Variables Observed in 1958, Acta astr. Cracoviae 9, 48, 1959.Google Scholar
11. Szafraniec, R. Minima of Eclipsing Variables Observed in 1959, Acta astr. Cracoviae 10, 68, 1960.Google Scholar
12. Szczepanowska, A. Minima of Eclipsing Variables in years 1956-8, Acta astr. Cracoviae 9, 46, 1959.Google Scholar
13. Ginter, J., Paczynski, B. and Wernik, A. Minima of Eclipsing Variables in 1954-6, Acta astr. Cracoviae 8, 48, 1958 = Repr. Obs. astr. warsz. 68.Google Scholar
14. Rudolph, R. Beobachtungsergebnisse der Berliner Arbeitsgemeinschaft für veränderliche Sterne, Astr. Nach. 285, 161, 1959.Google Scholar
15. Szafraniec, R. (Ed.) Cracow Observations of Variable Stars 1920-50, Pt. 1, And-Crater, Acta astr. Suppl. 3, Warsaw 1959.Google Scholar
16. Kwee, K. K. and van Woerden, H. A Method for Computing Accurately the Epoch of Minimum of an Eclipsing Variable, B.A.N. 12, 327, 1956.Google Scholar
17. Albo, H. The Determination of Epochs of Variable Stars, Per. Zvezdy 12, 427, 1960.Google Scholar
18. Whitney, B. S. Minima and Periods of Eclipsing Stars, Astr. J. 64, 258, 1959.Google Scholar
19. Abt, H. A. and Van Biesbroeck, G. The Visual Companion of RW Tauri, P.A.S.P. 71, 345, 1959.Google Scholar
20. Plavec, M. Period Changes of the Eclipsing Binary RW Tauri, Publ. astr. Insts. Csl. 46, 1960.Google Scholar
21. Krat, V. A. Per Zvezdy 11, 359, 1958.Google Scholar
21a. Prikhodko, A. E. On the Change of the Periods of Variable Stars, Astr. Circ. U.S.S.R. 195, 1958.Google Scholar
22. Plavec, M., Pékný, Z. and Smetanova, M. Problem of Period Variability of the Detached Eclipsing Binary Systems, Bull. astr. Insts. Csl. 11, 180, 1960.Google Scholar
23. Kopal, Z. and Shapley, M. B. Catalogue of the Elements of Eclipsing Binary Systems, Jodrell Bank Ann. 1, 139, 1956.Google Scholar
24. Plavec, M. Influence of Precession and Nutation on the Period of Eclipsing Variables, Bull. astr. Insts. Csl. 11, 197, 1960.Google Scholar
25. Kwee, K. K. Investigation of Variations in the Periods of Sixteen Bright Short-period Eclipsing Binary Systems B.A.N. 14, 131, 1958.Google Scholar
26. Schneller, H. Uber Erklärungsversuche der Periodenänderungen bei Bedeckungsveränderlichen, Kl. Veröff. Bamberg 27, 32, 1960.Google Scholar
27. Herczeg, T. Periodenänderungen bei Bedeckungsveränderlichen, Kl. Veröff. Bamberg 27, 28, 1960.Google Scholar
28. Prikhodko, A. E. On Period Variations of Eclipsing Variable Stars, Astr. Circ. U.S.S.R. 211, 1960.Google Scholar
29. Kordylewski, K. Vergleich der (O-C) Kurven von RR Lyrae- und Bedeckungsveränderlichen, Budapest Mitt. 46, 1960.Google Scholar
30. Woltjer, J. Jr., On a Special case of Orbit Determination in the Theory of Eclipsing Variables, B.A.N. 1, 93, 1922.Google Scholar
31. Irwin, J. B. Standard Light-time Curves, Astr. J. 64, 149, 1959.Google Scholar
32. Plavec, M. Apsidal Motion in Systems with Subgiant Components, Bull. astr. Insts. Csl. 11, 148, 1960.Google Scholar
33. Plavec, M. A Table for Facilitating the Computation of Apsidal Motion, Bull. astr. Insts. Csl. 11, 154, 1960.Google Scholar
34. Levi-Civita, T. Astronomical Consequences of the Relativistic Two-Body Problem, Amer. J. Math. 59, 225, 1937.Google Scholar
35. Rudkjøbing, M. The Relativistic Periastron Motion of DI Herculis, Ann. Ap. 22, 111, 1959 = Medd. Ole Roemer-Obs. 28.Google Scholar
36. Irwin, J. B. An introduction to Orbit Determinations of Eclipsing Binaries. Stars and Stellar Systems, vol 2 (in preparation).Google Scholar
37. Schneller, H. Tafeln zur Berechnung von randverdunkelten Bedeckungsveränderlichen, Publ. astrophys. Obs. Potsdam 30, 2, 1959.Google Scholar
38. Linnell, A. P. Atmospheric Eclipses I, Ap. J. 127, 211, 1958.Google Scholar
39. Wellmann, P. Photometrische Bahnbestimmung bei Bedeckungsveränderlichen, Kl Veröff. Bamberg 27, 9, 1960.Google Scholar
40. Herczeg, T. Untersuchungen über das Algol-System, Veröff Sternw. Bonn 54, 1959.Google Scholar
41. Kopal, Z. Fourier Analysis of Light Curves of Eclipsing Binaries, Schiaparelli Commemoration, Milan, Oct. 1960 (in press).Google Scholar
42. Hosokawa, Y. The Luminous Efficiency in Eclipsing Binary Systems, Sendai astr. Rap. 56, 1957.Google Scholar
43. Hosokawa, Y. The Reflection Effect in Algol System, Publ. astr. Soc. Japan 12, 127, 1960.Google Scholar
44. Kitamura, M. On the Phase-Function of the Reflection Effect in Close Eclipsing Binaries, Publ. astr. Soc. Japan 9, 171, 1957.Google Scholar
45. Batten, A. H. The Effect of Reflection on the Determination of Masses of Close Binary Systems, M.N.R.A.S. 117, 521, 1957.Google Scholar
46. Semenova, N. The Variation of Radiative Intensity from the Center to the Limb of a Stellar Disk in Eclipsing Variable Systems, Pulkovo Bull. 159, 142, 1958.Google Scholar
47. Lee, E. K. and Wright, K. O. The Light-ratio and Secondary Spectrum of the Eclipsing Binary Zeta Aurigae, Publ. Dom. astrophys. Obs. 11, 17, 1960.Google Scholar
48. Grant, G. and Abt, H. A. Photoelectric Observations of the 1955-6 Eclipse of Zeta Aurigae, Ap. J. 129, 320, 1959.Google Scholar
49. Sahade, J. Binaries Having one Component Below the Main Sequence, P.A.S.P. 70, 316, 1958.Google Scholar
50. Abhyankar, K. D. A Note on the Evolution of Close Binary Systems, Observatory 80, 26, 1960.Google Scholar
51. Kopal, Z. Origin and Evolution of Close Binary Systems, Contr. Asiago 95, 3, 1958.Google Scholar
51a. Krat, V. A. On Stellar Evolution, Part 3, Pulkovo Bull. 163, 106, 1960.Google Scholar
52. Sahade, J. Evolution in Close Binaries, Mém. Soc. Sci. Liège (5) 3, 76, 1959.Google Scholar
53. Smak, J. Note on the Evolution of Close Binaries, Acta. astr. Cracoviae, 9, 13, 1959.Google Scholar
54. Struve, O. Evolutionary Changes in Spectroscopic Binaries of Early Type, Astr. J. 63, 346, 1958.Google Scholar
55. Walter, K. Uber die Potentiale der freien Oberflächen enger Doppelsterne, Ann. Ap. 22, 101, 1959.Google Scholar
55a. Wood, F. B. On the Evolution of Close Binary Systems. Astr. J. 65, 58, 1960.Google Scholar
56. Kopal, Z. Evolutionary Processes in Close Binary Systems, Mem. Soc. Sci. Liège 5, 3, 74, 1959.Google Scholar
57. Huruhata, M. and Kitamura, M. The Absolute Magnitudes and the Effective Temperatures of Components of Close Binaries of W Ursae Majoris Type, Ann. Obs. astr. Tokyo (2) 5, 63, 1957.Google Scholar
58. Kitamura, M. On the Close Binary Stars of W Ursae Majoris Type, Publ. astr. Soc. Japan 11, 216, 1959 = Repr. Tokyo astr. Obs. 186.Google Scholar
59. Wood, F.B. The Eclipsing System TZ Coronae Austrinae, Astr. J. 65, 23, 1960.Google Scholar
60. Abhyankar, K. D. A Study of Some Early-Type Close Binary Stars, Ap. J. Suppl. 4, 157, 1959.Google Scholar
61. Reddish, V. C. Loss of Mass from Red Giant Companions of Close Binaries, Observatory 77, 202, 1957.Google Scholar
62. Struve, O. Exchange of Mass in Close Binaries, Sky and Telesc. 17, 70, 103, 1957.Google Scholar
63. Kitamura, M. The Mass-accumulating Stellar Models for Application to the Secondary Components of Some Close Binary Systems, Publ. astr. Soc. Japan 12, 1, 1960=Repr. Tokyo astr. Obs. 191.Google Scholar
64. Morton, D. C. Evolutionary Mass Exchange in Close Binary Systems, Astr. J. 64, 342, 1959; Ap. J. 132, 146, 1960.Google Scholar
65. Gould, N. L. Free Particles in Close Double Star Systems, P.A.S.P. 69, 541, 1957.Google Scholar
66. Prendergast, K. H. The Motion of Gas Streams in Close Binary Systems, Ap. J. 132, 162, 1960.Google Scholar
67. Gunther, O. Zur Entstehung von Gasströmen in engen Doppelsternsystemen, Astr. Nach. 284, 167, 1958.Google Scholar
68. Kopal, Z. The Nature of Gas Streams in Close Binary Systems, Astr. Nach. 284, 169, 1958.Google Scholar
69. Struve, O. Hβ in the Spectrum of V 448 Cygni, P.A.S.P. 70, 608, 1958.Google Scholar
70. Struve, O. and Sahade, J. Emission at Hβ in AO Cassiopeiae, P.A.S.P. 70, 111, 1958.Google Scholar
71. Struve, O., Sahade, J. and Huang, S. S. The Spectrum of U Coronae Borealis, P.A.S.P. 69, 342, 1957.Google Scholar
72. Struve, O. YY Geminorum, Sky and Telesc. 18, 552, 1959.Google Scholar
73. Struve, O. and Sahade, J. Spectrographic Observations of Algol, P.A.S.P. 69, 41, 1957.Google Scholar
74. McNamara, D. H. The Hβ Line in the Spectrum of RZ Scuti, P.A.S.P. 69, 574, 1957.Google Scholar
75. Hansen, K. and McNamara, D. H. An Estimate of the Stream Density in RZ Scuti, P.A.S.P. 72, 36, 1960.Google Scholar
76. Struve, O. RZ Scuti—a Peculiar Spectroscopic Binary, Sky and Telesc. 19, 276, 1960.Google Scholar
77. Struve, O., Sahade, J. and Huang, S. S. Plaskett’s Star HD 47129, Ap. J. 127, 148, 1958.Google Scholar
78. Eggen, O. J. The Period-Colour Relation for Contact Binaries. Roy. Obs. Bull. 31, 1961.Google Scholar
79. Rigai, J. L. Etude statistique des profondeurs d’éclipsés d’étoiles du type W UMa, C.R. 245, 1221, 1957 = Contr. Inst, astrophys. Paris (A) 228.Google Scholar
80. Popper, D. M. Rediscussions of Eclipsing Binaries IV, RX Herculis and other A Stars, Ap. J. 129, 659, 1959.Google Scholar
81. Kreiken, E. A. and Süer, B. Note on the H-R Diagram of Binary Stars, Ann. Ap. 23, 528, 1960.Google Scholar
82. Herbig, G. Observations and an Interpretation of VV Puppis, Astr. J. 64, 128, 1959; Ap.J. 132, 76, 1960.Google Scholar
83. Evans, D. S. The Dwarf Binary HD 16157, an Interim Report, M.N.R.A.S. 119, 526, 1959.Google Scholar
84. Kraft, R. P. and Landolt, A. U. Eclipsing Binaries in Galactic Clusters and O-B Associations, Ap.J. 129, 287, 1959.Google Scholar
85. Sahade, J. and Frieboes, H. A Search for W Ursae Majoris Stars in Galactic Clusters, P.A.S.P. 72, 52, 1960.Google Scholar
86. Batten, A. H. On Some Possible Relationships Between Certain Binary Systems, Mém. Soc. Sci. Liège (5) 3, 63, 1959.Google Scholar
87. Struve, O. The Problem of β Lyrae, P.A.S.P. 70, 5, 1958.Google Scholar
88. Sahade, J. On the System of β Lyrae, Astr. J. 63, 52, 1958.Google Scholar
89. Sahade, J., Huang, S. S., Struve, O. and Zebergs, V. The Spectrum of β Lyrae, Trans. Amer. phil. Soc. n.s. 49, pt. 1, 1959.Google Scholar
90. Ebbighausen, E. G. The Spectroscopic Orbit of Algol C, Ap. J. 128, 598, 1958.Google Scholar
91. Herczeg, T. Probleme des Algolsystems, Sterne 35, 1, 1959.Google Scholar
92. Hosokawa, Y. The Revised Elements of Algol, Publ. astr. Soc. Japan 10, 120, 1958.Google Scholar
93. Segre, S. Un modello della struttura interna di Algol A, Rendiconti Accad. Lincei 24, 301, 537, 1958.Google Scholar
94. Kopal, Z., Plavec, M., and Reilly, E. Jodrell Bank Ann. (in press).Google Scholar
95. Struve, O. Nova Herculis as a Binary System, Sky and Telesc. 18, 497, 1959.Google Scholar
96. Ahnert, P. Untersuchungen über die Doppelsternnatur der Nova DQ Herculis vor dem Ausbruch, Astr. Nach. 285, 191, 1959.Google Scholar
97. Ahnert, P. Die Doppelsternnatur von DQ Herculis vor dem Ausbruch im Dezember 1934, Kl. Veröff. Bamberg 27, 39, 1960.Google Scholar
98. Herczeg, T. Notes on Some Eclipsing and Visual Binaries, Budapest Mitt. 42, 39, 1957.Google Scholar