Aquarius-II-Zwerggalaxie
| Galaxie Aquarius-II-Zwerggalaxie | |
|---|---|
| Aquarius 2 | |
 | |
| AladinLite | |
| Sternbild | Wassermann |
| Position Äquinoktium: J2000.0, Epoche: J2000.0 | |
| Rektaszension | 22h 33m 55,512s[1] |
| Deklination | −09° 19′ 38,64″[1] |
| Erscheinungsbild | |
| Morphologischer Typ | dSph |
| Helligkeit (visuell) | (20,16 ± 0,07) mag |
| Flächenhelligkeit | 21,3 mag/arcmin² |
| Physikalische Daten | |
| Zugehörigkeit | Lokale Gruppe |
| Radialgeschwindigkeit | v⊙=(−71.1 ± 2.5) vGSR=49 km/s |
| Entfernung | (351.800 ± 10.800) Lj / (107.900 ± 3.300) pc |
| Absolute Helligkeit | (−4,36 ± 0,14) mag |
| Metallizität [Fe/H] | (−2,3 ± 0,5) |
| Geschichte | |
| Entdeckung | VST ATLAS Survey |
| Entdeckungsdatum | 2016 |
| Katalogbezeichnungen | |
| Aqr II dSph | |
| Galaxie mit sehr geringer Helligkeit und Oberflächenhelligkeit | |
Die Aquarius-II-Zwerggalaxie, kurz auch Aquarius II oder Aquarius 2, ist eine im Jahr 2016 entdeckte Zwerggalaxie des Typs dSph im Sternbild Wassermann in der Lokalen Gruppe und eine der Satellitengalaxien der Milchstraße.[2]
Eigenschaften
Aqr II dSph ist mit einer Oberflächenhelligkeit von eine der mit den Beobachtungsmitteln des Jahres 2016 am schwersten zu detektierbaren Galaxien überhaupt. Die Zwerggalaxie besitzt einen Halblichtradius von rh=(5,1 ± 0,8) ′, was absolut (159 ± 24) pc entspricht. Die Galaxie besitzt eine stellare Geschwindigkeitsdispersion von .[2]
Weiteres
- Liste der Galaxien der Lokalen Gruppe
Weblinks
Einzelnachweise
- ↑ NED
- ↑ a b G. Torrealba, S.E. Koposov. V. Belokurov, M. Irwin, M. Collins, M. Spencer, R. Ibata, M. Matteo, A. Bonaca, P. Jethwa: At the survey limits: discovery of the Aquarius 2 dwarf galaxy in the VST ATLAS and the SDSS data. In: Monthly Notices of the Royal Astronomical Society. 463. Jahrgang, Nr. 1, S. 712–722.
Antlia 2 | Aquarius-II | Bootes-I | Bootes-II | Bootes-III | Canes-Venatici-I | Canes-Venatici-II | Canis-Major-Zwerg | Carina-Zwerg | Cetus-II | Crater-II | Columba-I | Coma-Berenices-Zwerg | Draco-Zwerg | Draco-II | Eridanus-II | Eridanus-III | Fornax-Zwerg | Grus-I | Grus-II | Hercules-Zwerg | Horologium-I | Horologium-II | Hydra-II | Hydrus-I | Indus-II | Leo-I | Leo-II | Leo-IV | Leo T Leo V | Große Magellansche Wolke | Kleine Magellansche Wolke | Pegasus-III | Phoenix-Zwerg | Phoenix-II | Pictor-I | Pisces-I | Pisces-II | Reticulum-II | Reticulum-III | Sagittarius-Zwerg | Sagittarius-II | Segue 1 | Segue 2 | Sculptor-Zwerg | Sextans-Zwerg | Triangulum II | Tucana-II | Tucana-III | Tucana-IV | Tucana-V | Ursa Major-I | Ursa Major-II | Ursa-Minor-Zwerg | Willman 1
Auf dieser Seite verwendete Medien
Caption from NASA: Like early explorers mapping the continents of our globe, astronomers are busy charting the spiral structure of our galaxy, the Milky Way. Using infrared images from NASA's Spitzer Space Telescope, scientists have discovered that the Milky Way's elegant spiral structure is dominated by just two arms wrapping off the ends of a central bar of stars. Previously, our galaxy was thought to possess four major arms.
This artist's concept illustrates the new view of the Milky Way, along with other findings presented at the 212th American Astronomical Society meeting in St. Louis, Mo. The galaxy's two major arms (Scutum-Centaurus and Perseus) can be seen attached to the ends of a thick central bar, while the two now-demoted minor arms (Norma and Sagittarius) are less distinct and located between the major arms. The major arms consist of the highest densities of both young and old stars; the minor arms are primarily filled with gas and pockets of star-forming activity.
The artist's concept also includes a new spiral arm, called the "Far-3 kiloparsec arm," discovered via a radio-telescope survey of gas in the Milky Way. This arm is shorter than the two major arms and lies along the bar of the galaxy.
Our sun lies near a small, partial arm called the Orion Arm, or Orion Spur, located between the Sagittarius and Perseus arms.