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3C 66B
Elliptical radio galaxy in the constellation Andromeda
Elliptical radio galaxy in the constellation Andromeda
| Field | Value |
|---|---|
| name | 3C 66B |
| image | HST-3C66B-J8O813010.gif |
| image_scale | |
| caption | Hubble Legacy Archive visible light image of 3C 66B |
| alt | |
| epoch | J2000 |
| constellation name | Andromeda |
| ra | |
| dec | |
| z | 0.021258 |
| h_radial_v | |
| gal_v | |
| dist_ly | 73.79 ± |
| group_cluster | Abell 0347 |
| type | E |
| mass | |
| mass_light_ratio | |
| size | |
| stars | |
| appmag_v | 15.0 |
| appmag_b | |
| absmag_v | |
| mag_j | |
| mag_h | |
| mag_k | |
| sbrightness | |
| size_v | |
| half_light_radius_pc | |
| half_light_radius_arcminsec | |
| h1_scale_length_pc | |
| h1_scale_length_arcminsec | |
| xray_radius_pc | |
| xray_radius_arcminsec | |
| notes | FRI RG, |
| gamma-ray source | |
| names | |
| references |
gamma-ray source
3C 66B is an elliptical radio galaxy located in the constellation Andromeda. With an estimated redshift of 0.021258, the galaxy is about 73.79 Mpc away. It has an angular separation of from the blazar 3C 66A, but the two are most likely unrelated. 3C 66B is an outlying member of Abell 347, which is part of the Perseus–Pisces Supercluster.
Observations
This is a giant elliptical galaxy that is classified as a low-luminosity Fanaroff and Riley class 1 radio galaxy. Maps of the radio structure suggested that the emission is being shaped by the motion of the galaxy through an ambient medium. A strong jet and counter-jet extend about 100 kpc from the nucleus. These jets have been observed in radio, infrared, optical, ultraviolet, and X-ray bands. Gamma ray emission has been detected coming from the direction of this galaxy, which were most likely emitted from the core region.
Observations with the Hubble Space Telescope in 1990 showed that the jet has a filamentary, double-stranded structure. When viewed in the optical, the northern jet shows four knots along its length, all of which are polarized, thus indicating a synchrotron basis.
Very-long-baseline interferometry measurements of the galaxy's radio-emitting core demonstrated elliptical motion with a period of . This strongly suggested that a supermassive black hole binary (SMBHB) was located at the center of 3C 66B. This motion was expected to emit gravitational waves that would cause fluctuations in the pulse arrival times from the pulsar PSR B1855+09. However, no such signature was found. Numerical simulations indicated this detection method may only be valid for an orbital eccentricity below 0.03.
Messier 87 (M87), about 55 million light-years away, is the largest giant elliptical galaxy near the Earth, and also contains an active galactic nucleus. The smooth jet of 3C 66B rivals that of M87.
Gallery
HST-3C66B-jet-O5BQ06010.gif|Hubble Near-UV image of the jet coming out of 3C 66B 3C 66B NVAS 1.45I4.12 AP302 1995NOV27 1 102.U2.15M.jpg|NRAO VLA image of 3C 66B
References
This article was imported from Wikipedia and is available under the Creative Commons Attribution-ShareAlike 4.0 License. Content has been adapted to SurfDoc format. Original contributors can be found on the article history page.
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