David's Astronomy Pages (Projects)
Eclipsing Variables

Eclipsing Variable Stars Types Example Project Stars
 
Classification based on the shape of the light curve    
Bullet E Eclipsing binary systems (Type E)   | V Sge |
Bullet EA Algol (Beta Persei)-type eclipsing systems (Type EA)   | SZ Her | U Sge |
Bullet EB Beta Lyrae-type eclipsing systems (Type EB)   | TZ Lyr |
Bullet EW Ursae Majoris-type eclipsing variables (Type EW)
 
Classification according to the components' physical characteristics
Bullet GS Systems with one or both giant and supergiant components (Type GS)
Bullet PN Systems having a planetary nebula nuclei among components (Type PN)
Bullet RS RS Canum Venaticorum-type systems (Type RS)
Bullet WD Systems having white-dwarf components (Type WD)
Bullet WR Systems having a Wolf-Rayet star among components (Type WR)
 
Classification based on the degree of filling of inner Roche lobes
Bullet AR Detached systems of the AR Lacertae type (Type AR)
Bullet U Detached systems, with components not filling their inner Roche lobes (Type U)
Bullet DM Detached main-sequence systems (Type DM)
Bullet DS Detached systems with a subgiant (Type DS)
Bullet DW Detached systems similar to W UMa systems in physical properties (Type DW)
Bullet K Contact systems (Type K)
Bullet KE Contact systems of early (O-A) spectral type (Type KE)
Bullet KW Contact systems of the W UMa type (Type KW)
Bullet SD Semidetached systems (Type SD)
  
Project Stars
Bullet HD 5501 -  Eclipsing Binary
Bullet SZ Her - Eclipsing Binary

Eclipsing Binary Systems

Eclipsing binary stars systems are classified by a 3 fold system :
 according to the shape of the combined light curve, 
 according to the degree of contact between the components (if known) 
 according to the physical and evolutionary characteristics of their components. 

The classification based on light curves is simple, traditional, and suits the observers; the second and third classification methods take into account positions of the binary-system components in the (MV ,B-V) diagram and the degree of inner Roche lobe filling.  

The combination of the above three classification systems results in the assignment of multiple classifications for object types. These are separated by a "/" in the data field. Examples are: E/DM, EA/DS/RS, EB/WR, EW/KW, etc.   RT And, for example, is classified as EA/DW/RS 


Classification based on the shape of the light curve

Eclipsing binary systems (Type E)

Eclipsing binary systems. These are binary systems with orbital planes so close to the observer's line of sight (the inclination i of the orbital plane to the plane orthogonal to the line of sight is close to 90 deg) that the components periodically eclipse each other. Consequently, the observer finds changes of the apparent combined brightness of the system with the period coincident with that of the components' orbital motion.  Further divided into 3 types; EA, EB & EW


V Sge - Variable Star (Type E+NL)

V Sge (Sagitta) 
Image
Annotated CCD Image
3 x 30s (average combine), 2x2 binning, C Filter
2008-06-26 01:24hUT (#292135-41)
 
V Sge - reference stars 
Image
Annotated CCD Image
30s, 2x2 binning, V Filter
2008-06-26 01:24hUT (#292137)
 
V Sge - variation 
Image
Image

Back to Top


Algol (Beta Persei)-type eclipsing systems (Type EA)

Algol (Beta Persei)-type eclipsing systems. Binaries with spherical or slightly ellipsoidal components. It is possible to specify, for their light curves, the moments of the beginning and end of the eclipses. Between eclipses the light remains almost constant or varies insignificantly because of reflection effects, slight ellipsoidality of components, or physical variations. Secondary minima may be absent. An extremely wide range of periods is observed, from 0.2 to >= 10000 days. Light amplitudes are also quite different and may reach several magnitudes.

Back to Top


SZ Her - Eclipsing Binary (Type EA/SD) 

Measurements being made in V, R filters.

SZ Her  (Hercules)
Catalog period 0.81809828 days (19h 38m)
Mag +9.86 (min +11.87)
Image
Annotated CCD Image 
3 x 60 sec exposure (average combine), 2x2 binning, C Filter
2007-09-02 21:28h UT (#209062-68)
 
Reference Stars
Image
Annotated CCD Image 
60 sec exposure, 2x2 binning, V Filter
2007-09-02 21:25h UT (#209063
 
 SZ Her variation
Image
 
Image
Image
Image

 

Back to Top


U Sge - variable star (Type EA/SD)

U Sge (Sagitta) 
Algol-type eclipsing binary, 
GCVS catalog variation +6.45 to +9.28, period 3.38061933 days

Image
Annotated CCD Image
3 x 15s exposure (average combine), 2x2 binning, C Filter 
2008-05-09 01:50h UT (#287234-40)
    
U Sge - reference stars
Image
Annotated CCD Image
15s exposure, 2x2 binning, V Filter 
2008-05-09 01:50h UT (#287242)
    
U Sge - variation
Image
    
Image
Image

Back to Top


Beta Lyrae-type eclipsing systems (Type EB)

Beta Lyrae-type eclipsing systems. These are eclipsing systems having ellipsoidal components and light curves for which it is impossible to specify the exact times of onset and end of eclipses because of a continuous change of a system's apparent combined brightness between eclipses; secondary minimum is observed in all cases, its depth usually being considerably smaller than that of the primary minimum; periods are mainly longer than 1 day. The components generally belong to early spectral types (B-A). Light amplitudes are usually <2 mag in V.

Back to Top


TZ Lyr - Variable Star (Type: EB /D)

TZ Lyr (Lyra) - Reference Stars

Image

Annotated CCD Image 
3 x 30s sec exposure (average combine), 2x2 binning, V Filter
2007-10-22 23:42 h UT (#224271-75)

 

Earlier Image of TZ Lyr from 2006

Image 

 

TZ Lyr - variation

 Image

Image

Back to Top


W Ursae Majoris-type eclipsing variables (Type EW)

W Ursae Majoris-type eclipsing variables. These are eclipsers with periods shorter than 1 days, consisting of ellipsoidal components almost in contact and having light curves for which it is impossible to specify the exact times of onset and end of eclipses. The depths of the primary and secondary minima are almost equal or differ insignificantly. Light amplitudes are usually <0.8 mag in V. The components generally belong to spectral types F-G and later.

Back to Top


Classification according to the components' physical characteristics

Systems with one or both giant and supergiant components (Type GS)

Binary systems with one or both giant and supergiant components; one of the components may be a main sequence star.


Systems having a planetary nebula nuclei among components (Type PN)

Binary systems having, among their components, nuclei of planetary nebulae. Example: UU Sge.


RS Canum Venaticorum-type systems (Type RS)

RS Canum Venaticorum-type systems. A significant property of these systems is the presence in their spectra of strong Ca II H and K emission lines of variable intensity, indicating increased chromospheric activity of the solar type. These systems are also characterized by the presence of radio and X-ray emission. Some have light curves that exhibit quasi sine waves outside eclipses, with amplitudes and positions changing slowly with time. The presence of this wave (often called a distortion wave) is explained by differential rotation of the star, its surface being covered with groups of spots; the period of the rotation of a spot group is usually close to the period of orbital motion (period of eclipses) but still differs from it, which is the reason for the slow change (migration) of the phases of the distortion wave minimum and maximum in the mean light curve. The variability of the wave's amplitude (which may be up to 0.2 mag in V) is explained by the existence of a long-period stellar activity cycle similar to the 11-year solar activity cycle, during which the number and total area of spots on the star's surface vary.


Systems having white-dwarf components (Type WD)

Systems with white-dwarf components.


Systems having a Wolf-Rayet star among components (Type WR)

Systems having Wolf-Rayet stars among their components. Example: V 444 Cyg

Back to Top


Classification based on the degree of filling of inner Roche lobes

Detached systems of the AR Lacertae type (Type AR)

AR Detached systems of the AR Lacertae type. Both components are subgiants not filling their inner equipotential surfaces.


Detached systems, with components not filling their inner Roche lobes (Type U)

Detached systems, with components not filling their inner Roche lobes 


Detached main-sequence systems (Type DM)

Detached main-sequence systems. Both components are main-sequence stars and do not fill their inner Roche lobes.


Detached systems with a subgiant (Type DS)

DS Detached systems with a subgiant. The subgiant also does not fill its inner critical surface.


Detached systems similar to W UMa systems in physical properties (Type DW)

DW Systems similar to W UMa systems in physical properties (KW, see below), but not in contact.


Contact systems (Type K)

Contact systems, both components filling their inner critical surfaces.


Contact systems of early (O-A) spectral type (Type KE)

Contact systems of early (O-A) spectral type, both components being close in size to their inner critical surfaces.


Contact systems of the W UMa type (Type KW)

Contact systems of the W UMa type, with ellipsoidal components of F0-K spectral type. Primary components are main-sequence stars and secondaries lie below and to the left of the main sequence in the (MV,B-V) diagram.


Semidetached systems (Type SD)

Semidetached systems in which the surface of the less massive component is close to its inner Roche lobe.

Back to Top


 

HD 5501 - Eclipsing Binary 

Measurements being made in B, V, R filters as part of an ongoing study on variable behavior of this suspected eclipsing variable..

HD 5501 (Cassiopeia)

Image
Annotated CCD Image
30 sec exposure, 2x2 binning, C Filter 
2006-04-23 21:49h UT (#116018)

Approximate Colour Image of HD 5501 

Image
Approximate Colour CCD Image
Red : 2 x 30 sec (R),  Green : 2 x 30 sec (V), Blue : 2 x 60 sec (B), 2x2 binning
2006-04-23 21:53h UT (#116020-25)
Image

 HD 5501 Project

Back to Top