Epsilon Lyrae

From Wikipedia, the free encyclopedia
Epsilon Lyrae

The red dot shows the location of ε2 lyrae.
Observation data
Epoch J2000.0      Equinox J2000.0
Constellation Lyra
Epsilon1 Lyrae
Right ascension 18h 44m 20.3453s
Declination +39° 40 12.444
Apparent magnitude (V) 4.7
Epsilon2 Lyrae
Right ascension 18h 44m 22.7803s
Declination +39° 36 45.798
Apparent magnitude (V) 5.1
Characteristics
Spectral typeF1V / A8V
Astrometry
Parallax (π)20.10 ± 0.76 mas
Distance162 ± 6 ly
(50 ± 2 pc)
Other designations
4 Lyr, HR 7051, HD 173582, HIP 91919, BD +39 03509, SAO 67310, ADS 11635, CCDM 18443+3938, TYC 03122-3438 2, GSC 03122-3438, WDS 18443+3940
Database references
SIMBADdata
Database references
SIMBADdata

Epsilon Lyrae (ε Lyr, ε Lyrae), also known as the Double Double, is a multiple star system approximately 162 light-years away in the constellation of Lyra.

Star System

The widest two components of the system are easily separated when viewed through binoculars, or even with the naked eye under excellent conditions.[1] The northern star is called ε1 and the southern one is called ε2; they both lie around 162 light years from Earth and orbit each other. When viewed at higher magnifications, both stars of the binary can be further split into binaries; that is, the system contains two binary stars orbiting each other. Being able to view the components of each is a common benchmark for the resolving power of telescopes, since the individual doubles are so close together: the stars of ε1 were 2.35 arc-seconds apart in 2006, those of ε2 were separated by about the same amount in that year. Since the first high-precision measurements of their orbit in the 1980s, both binaries have moved only a few degrees in position angle.

The component stars of ε1 have magnitudes of 4.7 and 6.2 separated by 2.6" and have an orbital period that can only be crudely estimated at 1200 years, which places them at roughly 140 AU apart. The component stars of ε2 have magnitudes 5.1 and 5.5 separated by 2.3", and orbit in perhaps half that period. ε1 and ε2 themselves are not closer than 0.16 light years apart, and would take hundreds of thousands of years to complete an orbit. An observer at one pair would see the other pair shining with the light of a quarter Moon (which is about mv = 5.0), less than a degree away from each other.[2][3]

A fifth component of this system, orbiting one of the ε2 pair, was detected by speckle interferometry in 1985 and confirmed in two subsequent observations. No orbit can be prepared from such limited data, but its rapid motion suggests a period of a few tens of years. Its maximum observed separation of 0.2 arc-seconds precludes direct visual observation.

A number of other nearby stars may also be part of the system, bringing the system to a total of ten stars. The arrangement of the system is summarised in the tables below.

Stars in the system
Magnitude Spectral Type
A 5.02 A2
B 6.02 A4
C 5.14 A3
D 5.37 A5
E 11.71
F 11.2
G 13.83
H 13.22
I 10.43
a 10.43
[1][4]
Orbit pairs
Separation
(arcsec)
Separation
(au)
Most Recent
Position Angle
Period
(years)
Semi-major axis
(arcseconds)
Notes
AB-CD 208.2 10,500 172 ε12
AB 2.3 116 347 1804.41 4.742 components of ε1
CD 2.4 121 79 724.307 2.92 components of ε2
Ca 0.1 5 225 recently discovered
interferometric companion
AI 149.6 7500 138
CE 63.7 3200 333
EF 46 2300 37
EG 50 2500 238
GH 35 1800 358
[1][4][5]

See also

References

  1. 1.0 1.1 1.2 Burnham, Robert (1966). Burnham's Celestial Handbook. Dover Publications Inc. pp. 1151–1153. ISBN 0-486-24064-9. 
  2. Jim Kaler. "Epsilon Lyrae". Kaler's Stars. Retrieved 18 November 2013. 
  3. http://observing.skyhound.com/archives/jul/HR_7051.html
  4. 4.0 4.1 "Washington Double Star Catalog". Retrieved 19 December 2010. 
  5. "Sixth Orbit Catalog". Retrieved 19 December 2010. 

External links

This article is issued from Wikipedia. The text is available under the Creative Commons Attribution/Share Alike; additional terms may apply for the media files.