W Ursae Majoris variable explained

A W Ursae Majoris variable, also known as a low mass contact binary, is a type of eclipsing binary variable star. These stars are close binaries of spectral types F, G, or K that share a common envelope of material and are thus in contact with one another. They are termed contact binaries because the two stars touch and transfer mass and energy through the connecting neck, although astronomer Robert E. Wilson argues that the term "overcontact" is more appropriate.[1]

The class is divided into two subclasses: A-type and W-type.[2] A-type W UMa binaries are composed of two stars both hotter than the Sun, having spectral types A or F, and periods of 0.4 to 0.8 day. The W-types have cooler spectral types of G or K and shorter periods of 0.22 to 0.4 day. The difference between the surface temperatures of the components is less than several hundred kelvins. A new subclass was introduced in 1978: B-type. The B-types have larger surface temperature difference. In 2004 the H (high mass ratio) systems were discovered by Szilárd Csizmadia and Peter Klagyivik.[3] The H-types have a higher mass ratio than

q=0.72

(

q

= (secondary's mass)/(primary's mass)) and they have extra angular momentum.

These stars were first shown to follow a period-color relation (shorter period systems are redder) by Olin J. Eggen.[4] In 2012, Terrell, Gross and Cooney published a color-survey of 606 W UMa systems in the Johnson-Cousins photometric system.[5]

Their light curves differ from those of classical eclipsing binaries, undergoing a constant ellipsoidal variation rather than discrete eclipses. This is because the stars are gravitationally distorted by one another, and thus the projected area of the stars is constantly changing. The depths of the brightness minima are usually equal because both stars have nearly equal surface temperatures.

W Ursae Majoris is the prototype of this class.

Designation (name)ConstellationDiscoveryApparent magnitude (Maximum)Apparent magnitude (Minimum)Range of magnitudePeriodSpectral types
(eclipsing components)
Comment
AB AndAndromeda 10.4011.27 dG5 G5V
S AntAntliaH.M.Paul, 18916.276.83 dA9VA9V
44 (or i) Boo BBoötes 5.86.4 dG2VG2VTriple system, A being non-variable
TU BooBoötes 11.812.5 d
VW CepCepheus 7.237.68 dG5K0Ve
WZ CepCepheus 11.412.0 dF5Possible triple system
ε CrACorona Australis 4.745.0 d
SX CrvCorvus8.999.25 dF7V?
V1191 CygCygnus10.8211.15 dF6VG5V
V571 DraDracoBarquin, 201814.4314.77 d
XY LeoLeo 9.459.93 dK0V K0
CE LeoLeo 11.812.6 d
TV PicPictorVerschuren, 19877.377.53 dA2VA9-F0V
Y SexSextans9.8110.23 dF3/5V[4] or F5/6VPossibly two substellar companions
W UMaUrsa Major 7.758.48 dF8Vp F8VpPrototype, possible triple system

Notes and References

  1. Wilson . R. E.. 2001. Binary Star Morphology and the Name Overcontact. Information Bulletin on Variable Stars. 5076 . 1. 2001IBVS.5076....1W.
  2. 1965veco.conf.....R . Veraenderlichen Colloquium : 3 : 1965 . Remeis-Sternwarte . Kleine Veroeffentlichungen der Remeis-Sternwarte Bamberg . 1965 .
  3. Sz. Csizmadia and P. Klagyivik . On the properties of contact binary stars . Astronomy and Astrophysics . 426 . 1001–1005 . 18 October 2004 . 3 . 10.1051/0004-6361:20040430. astro-ph/0408049 . 2004A&A...426.1001C . free .
  4. Contact Binaries II. 1967MmRAS..70..111E. 1967. Memoirs of the Royal Astronomical Society. 70. 111.
  5. Terrell . Dirk. Gross. John. Cooney. Walter. 2012. A BVRCIC Survey of W Ursae Majoris Binaries. Astronomical Journal. 143 . 4. 99. 2012AJ....143...99T. 1202.3111 . 10.1088/0004-6256/143/4/99 . 118622542.