J/A+AS/109/447 Eclipsing binaries EROS catalogue (Grison+, 1995)
EROS catalogue of eclipsing binary stars in the bar of the
Large Magellanic Cloud
GRISON P., BEAULIEU J.-P., PRITCHARD J. D., TOBIN W., FERLET R.,
VIDAL-MADJAR A., GUIBERT J., ALARD C., MOREAU O., TAJAHMADY F.,
MAURICE E., PREVOT L., GRY C., AUBOURG E., BAREYRE P., BREHIN S.,
GROS M., LACHIEZE-REY M., LAURENT B., LESQUOY E., MAGNEVILLE C.,
MILSZTAJN A., MOSCOSO L., QUEINNEC F., RENAULT C., RICH J., SPIRO M.,
VIGROUX L., ZYLBERAJCH S., ANSARI R., CAVALIER F., MONIEZ M.
<Astron. Astrophys. Suppl. Ser. 109, 447 (1995)>
=1995A&AS..109..447G 1995A&AS..109..447G (SIMBAD/NED Reference)
ADC_Keywords: Magellanic Clouds; Binaries, eclipsing; Photometry
Keywords: catalogues - binaries: eclipsing - Magellanic Clouds
Description:
Catalogue and photometry of eclipsing binary stars in the bar of the LMC
obtained from observations in two colours made during 1991-92 by the
French EROS project.
File Summary:
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FileName Lrecl Records Explanations
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ReadMe 80 . This file
photom 35 87364 Be and Re photometry
table1 107 79 79 certain or probable eclipsing binary stars
in the bar of the LMC
table1.tex 91 555 LaTeX version of table1
table2 30 10 Times of secondary minima for obviously
eccentric systems
table2.tex 84 88 LaTeX version of table2
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Note: Transformations between EROS B and R magnitudes (Be and Re), and
Johnson B and V magnitudes (Bj and Vj), and Cousins R magnitude (Rc).
The transformations and the r.m.s. deviations of a single measure, sigma, are:
Bj = Be + 0.46(Be - Re) sigma = 0.08 mag
Vj = Be - 0.47(Be - Re) sigma = 0.07 mag
Rc = Re + 0.07(Be - Re) sigma = 0.04 mag
(Bj - Vj) = 0.92(Be - Re) sigma = 0.10 mag
(Vj - Rc) = 0.49(Be - Re) sigma = 0.02 mag
(Bj - Rc) = 1.37(Be - Re) sigma = 0.08 mag
Byte-by-byte Description of file: photom
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Bytes Format Units Label Explanations
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2- 9 A8 --- Name Name of star
11- 22 F12.4 d HJD Heliocentric moment of mid observation
24- 28 A5 --- Filt Filter (Be or Re)
30- 35 F6.3 mag Mag EROS magnitude
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Byte-by-byte Description of file: table1
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Bytes Format Units Label Explanations
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1- 4 I4 --- EROS [1001/1079] EROS number
starting at 10001 (eclipsing binaries)
6- 7 I2 --- CCD Number of the detector on which the star fell
9- 13 I5 arcsec x Harvard (x,y) coordinates of the star,
accurate to about 3 arcsec (1)
15- 18 I4 arcsec y Harvard (x,y) coordinates of the star
accurate to about 3 arcsec (1)
20- 21 I2 h RAh Right ascension J2000.0
23- 24 I2 min RAm Right ascension J2000.0
26- 30 F5.2 s RAs Right ascension J2000.0
(accurate to 0.2-0.3 arcsec)
32 A1 --- DE- Declination sign
33- 34 I2 deg DEd Declination J2000.0
36- 37 I2 arcmin DEm Declination J2000.0
39- 42 F4.1 arcsec DEs Declination J2000.0 (accurate to 0.2-0.3 arcsec)
44- 55 F12.4 d To(p) The heliocentric Julian date of the designated
primary minimum and its uncertainty. Where one
eclipse is clearly deeper, it has been taken as
the primary minimum. For some stars neither
minimum is clearly deeper and the eclipse
designated as primary is more or less arbitrary
57- 61 F5.4 d e_To(p) rms uncertainty on To(p)
63- 69 F7.4 d P Period of the system
71- 76 F6.4 d e_P rms uncertainty on P
78- 83 F6.2 -- dTo(p)/dP []? A partial derivative indicating how much
To(p) is affected by errors in P, where this is
significant.
85- 89 F5.2 --- Be(max) Approximate Be magnitudes at maximum light
91- 95 F5.2 --- Re(max) []? Approximate Re magnitude at maximum light
97-107 A11 --- Rem Remarks: The section of the printed paper in
which remarks are made about individual stars
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Note (1): Harvard system defined by Leanitt 1908, Ann. Harv. Coll. Obs, 60 No.4
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Byte-by-byte Description of file: table2
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Bytes Format Units Label Explanations
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2- 5 I4 --- EROS EROS number
7- 18 F12.4 d To(s) Heliocentric Julian date of the secondary
minimum for clearly eccentric systems
20- 24 F5.4 d e_To(s) rms uncertainty for To(s)
26- 30 F5.2 --- dTo(s)/dP []? A partial derivative indicating how much
To(s) is affected by errors in P, where this
is significant.
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(End) Patricia Bauer [CDS] 03-Oct-1994