In this article, we will thoroughly explore the topic of Phoenix Dwarf and all aspects related to it. From its origin to its relevance today, through its possible future implications, we will immerse ourselves in an exhaustive analysis that will cover both historical and contemporary aspects. Phoenix Dwarf is a topic of great interest and with a significant impact in various areas, so it is essential to understand it in its entirety. Through this article, we aim to provide the reader with a complete and detailed vision of Phoenix Dwarf, with the aim of generating solid and enriching knowledge on this topic.
Phoenix Dwarf Galaxy | |
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Observation data (J2000 epoch) | |
Constellation | Phoenix |
Right ascension | 01h 51m 06.3s |
Declination | −44° 26′ 41″ |
Redshift | 60 ± 30 km/s |
Distance | 1.44 ± 0.07 Mly (440 ± 20 kpc) |
Apparent magnitude (V) | 13.1 |
Characteristics | |
Type | IAm |
Apparent size (V) | 4′.9 × 4′.1 |
Notable features | - |
Other designations | |
ESO 245- G 007, PGC 6830 |
The Phoenix Dwarf is a dwarf irregular galaxy discovered in 1976 by Hans-Emil Schuster and Richard Martin West and mistaken for a globular cluster. It is currently 1.44 Mly away from Earth. Its name comes from the fact that it is part of the Phoenix constellation.
The Phoenix Dwarf has an inner part of young stars which is stretched in an east-west direction and an outer part of mainly old stars that is stretched north-south. The central region's rate of star formation seems to have been relatively constant across time (Martínez-Delgado et al. 1999). In 1999, St-Germain et al. discovered a H I region of about 105 M☉ just to the west of Phoenix. Its radial velocity is −23 km/s and may be physically associated with Phoenix if it is found to have a similar radial velocity.