Westerlund 1 (abbreviated Wd1, sometimes called Ara Cluster[6]) is a compact young super star cluster about 3.8 kpc (12,000 ly) away from Earth. It is thought to be the most massive young star cluster in the Milky Way,[4] and was discovered by Bengt Westerlund in 1961[7] but remained largely unstudied for many years due to high interstellar absorption in its direction. In the future, it will probably evolve into a globular cluster.[8]

Westerlund 1

Credit: ESO/VPHAS+ Survey/N. Wright
Observation data (J2000 epoch)
Right ascension16h 47m 04.0s[1]
Declination−45° 51′ 04.9″[1]
Distance3.78+0.56
−0.46
[2] (2.6[3] – 4.23[4]) kpc
Physical characteristics
Mass63,000[5] M
Radius3.26 ly[5]
Estimated age3.50 Myr[5]
Other designationsAra Cluster, Westerlund 1, ESO 277-12, C 1644-457, VDBH 197
Associations
ConstellationAra
See also: Open cluster, List of open clusters

The cluster contains a large number of rare, evolved, high-mass stars, including: 6 yellow hypergiants, 4 red supergiants including Westerlund 1-26, one of the largest known stars, 24 Wolf-Rayet stars, a luminous blue variable, many OB supergiants, and an unusual supergiant sgB[e] star which has been proposed to be the remnant of a recent stellar merger.[9] In addition, X-ray observations have revealed the presence of the anomalous X-ray pulsar CXO J164710.20-455217, a slow rotating neutron star that must have formed from a high-mass progenitor star.[10] Westerlund 1 is believed to have formed in a single burst of star formation, implying the constituent stars have similar ages and compositions.

Aside from hosting some of the most massive and least-understood stars in our galaxy, Westerlund 1 is useful as a relatively nearby, easy to observe super star cluster that can help astronomers determine what occurs within extragalactic super star clusters.

Observations edit

 
Images of Westerlund 1: left is visible light, with all stars appearing red due to interstellar absorption; right is X-ray wavelengths, with the magnetar marked

The brightest O7–8V main sequence stars in Wd1 have V-band photometric magnitudes around 20.5, and therefore at visual wavelengths Wd1 is dominated by highly luminous post-Main Sequence stars (V-band magnitudes of 14.5–18, absolute magnitudes −7 to −10), along with less-luminous post-Main Sequence stars of luminosity class Ib and II (V-band magnitudes of 18–20). Due to the extremely high interstellar reddening towards Wd1, it is very difficult to observe in the U- and B-bands, and most observations are made in the R- or I-bands at the red end of the spectrum or in the infrared. Stars in the cluster are generally named using a classification introduced by Westerlund,[11] although a separate naming convention is often used for the Wolf-Rayet stars.[12]

At X-ray wavelengths, Wd1 shows diffuse emission from interstellar gas and point emission from both high-mass, post-Main Sequence and low mass, pre-Main Sequence stars. The Westerlund 1 magnetar is the most luminous X-ray point source in the cluster, with the sgB[e] star W9, the (presumed) binary W30a and the Wolf–Rayet stars WR A and WR B all strong X-ray sources. Approximately 50 other X-ray point sources are associated with luminous optical counterparts. Finally, at radio wavelengths the sgB[e] star W9 and red supergiants W20 and W26 are strong radio sources, while the majority of the cool hypergiants and a few OB supergiants and Wolf–Rayet stars are also detected.

Age and evolutionary state edit

 
Artist's impression of the magnetar CXOU J164710.2-455216 in the star cluster Westerlund 1 (ESO/L. Calçada)

The age of Wd1 is estimated at 4–5 Myr from comparison of the population of evolved stars with models of stellar evolution. The presence of significant numbers of both Wolf–Rayet stars and red and yellow supergiants in Wd1 represents a strong constraint on the age: theory suggests that red supergiants will not form until around 4 Myr as the most massive stars do not go through a red supergiant phase, while the Wolf–Rayet population declines sharply after 5 Myr. This range of ages is broadly consistent with infra-red observations of Wd1 that reveal the presence of late-O main sequence stars, although a lower age of around 3.5 Myr has been suggested from observations of lower-mass stars in Wd1.[1]

 
Comet-like stars in Westerlund 1[13]

If Wd1 formed stars with a typical initial mass function then the cluster would have originally contained a significant number of very massive stars, such as those currently observed in the younger Arches cluster. Current estimates of the age of Wd1 are greater than the lifetimes of these stars, and stellar evolution models suggest that there would already have been 50–150 supernovae in Wd1, with a supernova rate of approximately one per 10,000 years over the last million years. However, to date only one definitive supernova remnant has been detected—the Westerlund 1 magnetar—and the lack of other compact objects and high-mass X-ray binaries is puzzling. A number of suggestions have been put forward, including high supernova kick velocities that disrupt binary systems, the formation of slowly accreting (and therefore undetectable) stellar mass black holes, or binary systems in which both objects are now compact objects, but the problem has yet to be resolved.

As the stars in Westerlund 1 have the same age, composition and distance, the cluster represents an ideal environment for understanding the evolution of massive stars. The simultaneous presence of stars evolving on to and off of the Main Sequence presents a robust test for stellar evolution models, which are also currently unable to correctly predict the observed distribution of Wolf–Rayet subtypes in Westerlund 1.[14]

Binary fraction edit

A number of lines of evidence point to a high binary fraction amongst the high-mass stars in Wd1. Some massive binaries are detected directly through photometry[15] and radial velocity[16] observations, while many others are inferred through secondary characteristics (such as high X-ray luminosity, non-thermal radio spectra and excess infra-red emission) that are typical of colliding-wind binaries or dust-forming Wolf–Rayet stars. Overall binary fractions of 70% for the Wolf–Rayet population[12] and in excess of 40% for the OB supergiants are currently estimated, although both may be incomplete.[16]

Members edit

As well as documented members of the cluster, the luminous blue variable MN44 is thought to be a runaway star ejected from Westerlund 1 four to five million years ago.[17]

Designation Right ascension Declination Object type Spectral type Luminosity (L) Temperature (K) Radius (R)
W2a[9] 16h 46m 59.7s −45° 50′ 51.1″ Blue supergiant O9.5 Ia – B0.5 Ia
W4[9] 16h 47m 01.42s −45° 50′ 37.1″ Yellow hypergiant G0 Ia+ – F2 Ia+
W5[18] 16h 47m 02.97s −45° 50′ 19.5″ Blue hypergiant
W6a[9] 16h 47m 04.0s −45° 50′ 21.0″ Blue supergiant
W7[9] 16h 46m 03.62s −45° 50′ 14.2″ Blue hypergiant
W8a[9] 16h 47m 04.79s −45° 50′ 24.9″ Yellow hypergiant
W8b[18] 16h 47m 04.95s −45° 50′ 26.7″ Blue hypergiant B1-5Ia
W9[9] 16h 47m 04.14s −45° 50′ 31.1″ B[e] star sgB[e]
W12a[9] 16h 47m 02.21s −45° 50′ 58.8″ Yellow hypergiant
W13[19][16] 16h 47m 06.45s −45° 50′ 26.0″ Eclipsing binary B0.5 Ia+ + OB
W16a[9] 16h 47m 06.61s −45° 50′ 42.1″ Yellow hypergiant
W20[9] 16h 47m 04.70s −45° 51′ 23.8″ Red supergiant 126,000[20] 3,500[20] 965[20]
W26[9] 16h 47m 05.40s −45° 50′ 36.5″ Red supergiant M2-6Ia[21] 380,000[22] – 1,100,000[20] 3,600[23] – 3,700[20] 1,530[22]−2,550[20],1,165–1,221[24]
W32[9] 16h 47m 03.67s −45° 50′ 43.5″ Yellow hypergiant
W33[9] 16h 47m 04.12s −45° 50′ 48.3″ Blue hypergiant
W36[25] 16h 47m 05.08s −45° 50′ 55.1″ Eclipsing binary O6.5III + O9.5 IV 275,000 + 89,000 12.69 + 10.46
W75[26] 16h 47m 08.93s −45° 49′ 58.4″ Red supergiant 68,000[20] 3,600[20] 668[20]
W237[9] 16h 47m 03.09s −45° 52′ 18.8″ Red supergiant, Possible foreground halo object 234,000,[20] 1,000[27] 3,605[20] 1,245,[20] 216[28]
W243[9] 16h 47m 07.55s −45° 52′ 28.5″ Luminous blue variable LBV
W265[9] 16h 47m 06.26s −45° 49′ 23.7″ Yellow hypergiant
WR 77a[29] 16h 46m 55.4s −45° 51′ 34″ Wolf–Rayet star WN6–7
WR 77aa[30] 16h 46m 46.3s −45° 47′ 58″ Wolf–Rayet star WC9d
WR 77b[29] 16h 46m 59.9s −45° 55′ 26″ Wolf–Rayet star WC8
WR 77c[29] 16h 47m 00.89s −45° 51′ 20.9″ Wolf–Rayet star WNL
WR 77d, W57c[29] 16h 47m 01.5s −45° 51′ 45″ Wolf–Rayet star WN8
WR 77e[29] 16h 47m 01.67s −45° 51′ 19.9″ Wolf–Rayet star WN6–8
WR 77f, W5[29] 16h 47m 02.97s −45° 50′ 19.5″ Wolf–Rayet star WNVL
WR 77g[29] 16h 47m 03.1s −45° 50′ 43″ Wolf–Rayet star WC7
WR 77h, W66[29] 16h 47m 04.0s −45° 51′ 37.5″ Wolf–Rayet star WC9
WR 77i[29] 16h 47m 04.02s −45° 51′ 25.2″ Wolf–Rayet star WN6–8
WR 77j, W44[29] 16h 47m 04.20s −45° 51′ 07.0″ Wolf–Rayet star WN9
WR 77k[29] 16h 47m 04.1s −45° 51′ 20.0″ Wolf–Rayet star WC9
WR 77l[29] 16h 47m 04.40s −45° 51′ 03.8″ Wolf–Rayet star WC8.5
WR 77m, W239[29] 16h 47m 05.21s −45° 52′ 25.0″ Wolf–Rayet star WC9
WR 77n[29] 16h 47m 05.35s −45° 51′ 05.0″ Wolf–Rayet star WN8 (uncertain)
WR 77o, W14c[29] 16h 47m 06.0s −45° 15′ 22″ Wolf–Rayet star WN7o[31]
WR 77p, W241[29] 16h 47m 06.06s −45° 52′ 08.3″ Wolf–Rayet star WC9
WR 77q[29] 16h 47m 06.24s −45° 51′ 26.5″ Wolf–Rayet star WN6–8
WR 77r[29] 16h 47m 07.6s −45° 52′ 36″ Wolf–Rayet star WN6
WR 77s, W72[29] 16h 47m 08.32s −45° 50′ 45.5″ Wolf–Rayet star WN6o[12]
WR 77sa[12] 16h 47m 07.58s −45° 49′ 22.2″ Wolf–Rayet star WN6h
WR 77sb[12] 16h 47m 07.66s −45° 52′ 35.9″ Wolf–Rayet star WN6o
WR 77sc, W72[12] 16h 47m 08.32s −45° 50′ 45.5″ Wolf–Rayet star WN7b
WR 77sd[12] 16h 47m 14.1s −45° 48′ 32″ Wolf–Rayet star WN4–5
CXOU J164710.2-455216[32] 16h 47m 10.18s −45° 52′ 16.7″ anomalous X-ray pulsar

References edit

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External links edit