No CrossRef data available.
Article contents
42. Commission des Etoiles Doubles Photometriques
Published online by Cambridge University Press: 25 April 2016
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.
- Type
- Part III: Rapports et Comptes Rendus des Seances es Commissions
- Information
- Copyright
- Copyright © Cambridge University Press 1960
References
[1]
Wood, F. B.
Eclipsing Variable Stars: a Survey of the Field, Vistas in Astronomy, 2, 1171-6, 1956.Google Scholar
[2]
Kron, G. E. and Gordon, K. C.
Photo-electric Observations of Variable Stars, J.R.A.S. Can.
51, 17–22, 1957.Google Scholar
[3]
Binnendijk, L.
Properties of Double Stars (Univ. of Pennsylvania Press, to be published in Spring, 1958).Google Scholar
[4]
Kranjc, A.
Un fotometro fotoelettrico per il rifrattore Merz di Merate, Mem. Soc. Astr. Ital.
26, 455-9, 1955.Google Scholar
[5]
Strohmeier, W. and Geyer, E.
Lchtelektrische Photometrie auf der Remeis-Sternwarte, Bamberg, Kleinere Veröff. Remeis-Sternw. no. 13, n.d.Google Scholar
[6]
Blitzstein, W. Paper in ‘The Present and Future of the Telescope of Moderate Size’, Univ. of Pennsylvania Press, 1958.Google Scholar
[7]
Sahade, J.
Need for Photoelectric Work in the Field of Close Binary Systems, P.A.S.P.
69, 258-61, 1957.CrossRefGoogle Scholar
[8]
Lenouvel, F.
Observations photoélectriques de naines blanches, J. d. Obs.
40, 15–16, 1957.Google Scholar
[8a]
Broglia, P., Masani, A. and Pestarino, E.
Oservazioni di nane bianche, Mem. Soc. Astr. Ital.
27, 497, 1956.Google Scholar
[9]
Borgman, J.
Electronic Scanning for Variable Stars, Publ. Astr. Lab. Groningen, 58.Google Scholar
[10]
Wood, F.B.
Problems of Co-ordination and Co-operation in Double-Star Astronomy, J.R.A.S. Can.
51, 65-9, 1957.Google Scholar
[11]
Wright, K. O.
Pre-eclipse Observations of ε Aurigae, J.R.A.S. Can.
49, 221-30, 1955.Google Scholar
[12]
Pillans, H. M.
Peculiar Features in the Spectrum of Epsilon Aurigae, P.A.S.P.
67, 340-1, 1955.Google Scholar
[13]
Pillans, H. and Struve, O.
The Spectrum of ε Aurigae during Eclipse, Astr. J.
62, 145, 1957.Google Scholar
[14]
Struve, O. and Pillans, H.
The Spectrum of ε Aurigae in October and November, 1956, P.A.S.P.
69, 169-72, 1957.Google Scholar
[16]
Svechnikov, M. A.
ε Aurigae—the Star Showing Variable Polarisation, Astr. Circ. U.S.S.R.
177, 12, 1957.Google Scholar
[17]
Wright, K. O. and McKellar, A.
The Chromospheric Spectrum of VV Cephei in April and May, 1956, P.A.S.P.
68, 405-20, 1956.Google Scholar
[18]
Larsson-Leander, G.
Photoelectric Observations of the 1956-1957 Eclipse of VV Cephei, Medd. Stockh. Obs.
96, 1957.Google Scholar
[21]
Lynds, C. R.
Photoelectric Observations of the Peculiar System, W Serpentis, Ap. J.
126, 81-6, 1957.Google Scholar
[23]
Koch, R. H.
Times of Minima of Selected Eclipsing Variables, Astr. J.
61, 47, 1956.Google Scholar
[24]
Tsesevich, W. P.
On the Changes of the Periods of 20 Eclipsing Variable Stars, Astr. Circ. U.S.S.R.
164, 15–19, 1955.Google Scholar
[26]
Svechnikov, M. A.
The Investigation of Changes of the Periods of Several Eclipsing Variable Stars, Per. Zvezd.
10, 262-82, 1955.Google Scholar
[27]
Lange, G. A.
On Changes of the Periods of Z Dra and RT Per, Astr. Circ. U.S.S.R.
167, 19–21, 1956.Google Scholar
[29]
Kopal, Z. and Kurth, R.
The Relation between Period and Times of the Maxima or Minima of Variable Stars, Z. Ap.
42, 90–100, 1957.Google Scholar
[30]
de Kort, J., S.J.,
Photometric Elements and Orbital Eccentricity of HD 163708, Ric. Astr.
3, 277-81, 1955.Google Scholar
[31]
de Kort, J., S.J.,
On Finding the Apsidal Period of an Eclipsing Binary. Vistas in Astronomy, 2, 1187-93, 1956 = Misc. Astr. Vat. 3, no. 108, 1956.Google Scholar
[32]
Kopal, Z. and Shapley, M. B.
Catalogue of the Elements of Eclipsing Binary Systems, Jodrell Bank Ann.
1, 139–221, 1956.Google Scholar
[33]
Dadaev, A. N.
Tables for Computation of Elements of Eclipsing Systems with Different Ellipticities of Components, Pulkovo Izvest.
19, no. 6, 122-6, 1955.Google Scholar
[34]
Hosokawa, Y.
Auxiliary Tables for the Analysis of Eclipsing Binary Light Curves, Sendai Astr. Rap. no. 46, 1955.Google Scholar
[35]
Ferrarid’Occhieppo, K.
Beitrag zur Bestimmung des Radien Verhältnisses bei Bedeckungsveränderlichen, Mut. Univ. Sternw. Wien, 9, 1–39, 1956.Google Scholar
[36]
Linnell, A. P.
Light-loss Tables for Atmospheric Eclipses, Astr. J.
61, 7–8, 1956.Google Scholar
[37]
Gianuzzi, M. A.
Un nuovo metodo per la determinazione delle orbita fotometrica delle stelle variabili ad eclisse, Contr. Oss. M. Mario, (n.s.), 235, 1957.Google Scholar
[38]
Merrill, J. E.
Avenues of Progress in Interpretation of Light Curves, J.R.A.S. Can.
51, 23-8, 1957.Google Scholar
[39]
Heard, J. F. and MacRae, D. A.
Calculation of Orbital Elements with the Aid of an Electronic Computer, J.R.A .S. Can.
51, 29–34, 1957.Google Scholar
[41]
Hosokawa, Y.
The Coefficient of Darkening in Main Sequence Stars, Sendai Astr. Rap.
42, 1955.Google Scholar
[42]
Hosokawa, Y.
The Photometric Ellipticity Constant in Eclipsing Binary Systems, Sendai Astr. Rap.
52, 1957.Google Scholar
[43]
Huffer, C. M. and Kopal, Z.
Studies of the Darkening Coefficient in Three Wave-Lengths, Astr. J.
60, 164-5, 1955.CrossRefGoogle Scholar
[44]
Popper, D. M.
Critical Studies of Absolute Dimensions of Eclipsing Stars, J.R.A.S. Can.
51, 51-8, 1957.Google Scholar
[45]
Kopal, Z.
The Classification of Close Binary Systems, Ann. Astrophys.
18, 379–430, 1955 = Manchester Astr. Contr. 3, 31, 1955.Google Scholar
[46]
Kopal, Z.
Evolutionary Processes in Close Binary Systems, Ann. Astrophys.
19, 298–335, 1956.Google Scholar
[47]
Struve, O.
The Evolution of Close Binary Systems, Sky and Telesc.
15, 64-8, 1956.Google Scholar
[48]
Huang, S. S.
A Dynamical Problem in Binary Systems and its Bearing on Stellar Evolution, Astr. J.
61, 49–61, 1956.Google Scholar
[51]
Struve, O. and Huang, S. S.
Close Binary Stars, Occ. Notes R. Astr. Soc.
3, 161-88, 1957.Google Scholar
[52]
Johnson, M.
Some Electromagnetic ESects of Eruption from Ringed Stars and Wolf-Rayet Binaries, Observatory, 75, 68–71, 1955.Google Scholar
[53]
Kuiper, G. P. and Johnson, J. R.
Dimensions of Contact Surfaces in Close Binaries, Ap. J.
123, 90-4, 1956.Google Scholar
[54]
Huang, S. S. and Struve, O.
The Radii and Masses of Eclipsing Binary Stars, Astr. J.
61, 300-9, 1956.CrossRefGoogle Scholar
[55]
Plavec, M.
Dynamical Unstability of the Components of Close Binary Systems, Liège Symposium on Emission-Line Stars, p. 411, Cointe-Sclessin, 1958.Google Scholar
[56]
Hewison, V.
Some Dynamical Problems Arising in Close Binary Systems, M.Sc. Thesis (unpublished), Manchester, 1956.Google Scholar
[57]
Crawford, J. A. and Kraft, R. P.
An Interpretation of AE Aquarii, Ap. J.
123, 44–53, 1956.Google Scholar
[58]
Sahade, J. O.
the Wolf-Rayet Stars, Liège Symposium on Emission-Line Stars, p. 46, Cointe-Sclessin, 1958.Google Scholar
[59]
Ovenden, M. W.
Photometric Effects of Gaseous Envelopes in Close Eclipsing Binaries, Vistas in Astronomy, 2, 1193-7, 1956.Google Scholar
[60]
Kopal, Z.
The Instability of Sub-giants in Close Binary Systems, I.A.U. Symposium no. 3, Non-stable Stars, pp. 123-37, Cambridge, 1957.Google Scholar
[61]
Krat, V. A.
Non-Stability in Close Binary Stars, I.A.U. Symposium no.
3, Non-stable Stars, pp. 159-64, Cambridge, 1957.Google Scholar
[62]
Martynov, D. Ya.
Phenomena of Non-Stability in Close Binary Systems, I.A.U. Symposium no. 3, Non-stable Stars, pp. 138-43, Cambridge, 1957.Google Scholar
[63]
Struve, O.
Instability in Stars of Early Spectral Type, I.A. U. Symposium no. 3, Non-stable Stars, pp. 93–107, Cambridge, 1957.Google Scholar
[64]
Wood, F. B.
Photometric Evidence of Instability in Eclipsing Systems, I.A.U. Symposium no. 3, Non-stable Stars, pp. 144-58, Cambridge, 1957.Google Scholar
[65]
Kopal, Z.
Theory of Close Binary Systems, International Astrophysics Series, London and New York (in press).Google Scholar
[66]
Kreiken, E. A.
Some Remarks on the Relation P√ρ for Spectroscopic Binaries and Eclipsing Binaries, Z. Ap.
37, 96–102, 1955.Google Scholar
[67]
Serkowski, K.
On the Density Distribution and the Ellipticity of the Components of the Eclipsing Variable CO Lacertae, Acta Astr.
6, 57-8, 1956.Google Scholar
[68]
Odgers, G. J. and Stewart, R. W.
The Fission Theory and the Origin of Binary Systems, J.R.A.S. Can.
51, 97–105, 1957.Google Scholar
[69]
Lavrov, M. I.
Some Statistical Results for Eclipsing Binaries and their Physical Interpretation, Bull. Engelhardt Obs. no. 31, 3–64, 1955.Google Scholar
[70]
Alksnis, A.
Space Distribution of Eclipsing Binaries and some Statistical Results, Per. Zvezd.
10, 141-51, 1955.Google Scholar
[71]
Rigai, J. L.
Propriétés spatio-temporelles d’étoiles du type W UMa, C.R.
240, 50, 1955 = Contr. Inst. Astrophys. (A), 188, 1955.Google Scholar
[73]
Bidelman, W. P.
Catalogue and Bibliography of Emission-Line Stars of Types later than B, Ap. J. Suppl.
1, 175–268, 1954.Google Scholar
[74]
Woods, M. L.
Spectral Types of Bright Southern Stars, Commonwealth Obs. Mt. Stromlo Memoirs, no. 12, 1955.Google Scholar
[75]
Petrie, R. M. and Moyls, B. N.
Spectroscopic and Calculated Absolute Magnitudes of the Components of Eclipsing Binaries, Publ. Dom. Astrophys. Obs. Victoria, 10, 296-9, 1956.Google Scholar
[76]
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, 63–70, 1957.Google Scholar
[77]
Strand, K. Aa.
Stellar Masses and the Mass-Luminosity Relation, J.R.A.S. Can.
51, 46–50, 1957.Google Scholar
[78]
Pearce, J. A.
The Masses of the O- and B-type Spectroscopic Binaries, Determined by the Mass-Luminosity Relation, J.R.A.S. Can.
51, 59–64, 1957.Google Scholar
[80]
Struve, O. and Sahade, J.
Spectrographic Observations of Algol, P.A.S.P.
69, 41-5, 1957.Google Scholar
[81]
Struve, O. and Sahade, J. O.
the Third Body in the System of Algol, P.A.S.P.
69, 265-7, 1957.Google Scholar
[82]
Struve, O. and Sahade, J.
The Spectrum of β Persei During Primary Eclipse, Ap. J.
125, 689-91, 1957.Google Scholar
[83]
Sahade, J.
Emission Lines in the Spectrum of Algol, Liège Symposium on Emission-Line Stars, p. 404, Cointe-Sclessin, 1958.Google Scholar
[84]
Huang, S. S.
Variation of He 1 Lines in the Algol System during Primary Eclipse, Ap. J.
126, 51-2, 1957.Google Scholar
[85]
Wilson, O. C.
The Analysis of the Chromosphere of Zeta Aurigae, J.R.A.S. Can.
51, 70-4, 1957.Google Scholar
[86]
McKellar, A. and Wright, K. O.
Some Problems in the Interpretation of the Spectra of the Zeta Aurigae-like Stars, J.R.A.S. Can.
51, 75–82, 1957.Google Scholar
[88]
Wright, K. O. and Lee, E. K.
The Light-ratio and the Spectrum of the Secondary Component of the Eclipsing Binary 31 Cygni, P.A.S.P.
68, 17–22, 1956.Google Scholar
[89]
Larsson-Leander, G.
Spectrophotometry of 31 Cygni at Egress 1951, Stockh. Ann.
19, no. 8, 1–31, 1957.Google Scholar
[90]
McKellar, A. and Petrie, R. M.
The Chromospheric Spectrum and the Atmosphere of 31 Cygni, I.A.U. Symposium no. 3, Non-stable Stars, pp. 165-72, Cambridge, 1957.Google Scholar
[91]
Larsson-Leander, G.
Spectrographic Observations of 32 Cygni at the 1952-53 Eclipse, Mead. Stockh. Obs.
87, 1956.Google Scholar
You have
Access