Supergalactic coordinate system

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The supergalactic coordinate system is a reference frame for the supercluster of galaxies that contains the Milky Way galaxy, referenced to a local relatively flat collection of galaxy clusters used to define the supergalactic plane.

Galaxies and galaxy clusters < 50 Mly away from Earth plotted in the supergalactic plane

The supergalactic plane is more or less perpendicular to the plane of the Milky Way; the angle is 84.5°. As viewed from Earth, the plane traces a great circle across the sky through the following constellations:

History

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In the 1950s the astronomer Gérard de Vaucouleurs recognized the existence of a flattened “local supercluster” from the Shapley-Ames Catalog in the environment of the Milky Way. He noticed that when one plots nearby galaxies in 3D, they lie more or less on a plane. A flattened distribution of nebulae had earlier been noted by William Herschel. Vera Rubin had also identified the supergalactic plane in the 1950s, but her data remained unpublished.[1] The plane delineated by various galaxies defined in 1976 the equator of the supergalactic coordinate system de Vaucouleurs developed. In years thereafter with more observation data available de Vaucouleurs' and Rubin's findings about the existence of the plane proved right.

Based on the supergalactic coordinate system of de Vaucouleurs, surveys[2] in recent years determined the positions of nearby galaxy clusters relative to the supergalactic plane. Amongst others the Virgo cluster, the Norma cluster (including the Great Attractor), the Coma cluster, the Pisces-Perseus supercluster, the Hydra cluster, the Centaurus cluster, the Pisces-Cetus supercluster and the Shapley Concentration were found to be near the supergalactic plane.

Definition

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The supergalactic coordinate system is a spherical coordinate system in which the equator lies in the supergalactic plane.

By convention, supergalactic latitude is usually abbreviated SGB, and supergalactic longitude as SGL, by analogy to b and l conventionally used for galactic coordinates.

 
Supergalactic and Ecliptic plane
  • The zero point (SGL = 0°, SGB = 0°)[3] lies in the constellation Cassiopeia, coincides with (lx = 137.37°, bx = 0°) and was chosen for convenience to lie along the line where the supergalactic plane intersects with the galactic plane. In J2000 equatorial coordinates, this is approximately RA = 2.82h, Dec = +59.5°.
  • The origin essentially coincides with the Earth, because the supergalactic plane is identified as a plane observed from Earth.
  • The north supergalactic pole (SGB = 90°) lies in the constellation Hercules at galactic coordinates (lz = 47.37°, bz = +6.32°), or approximately RA = 18.9h, Dec = +15.7°.

The transformation from a triple of Cartesian supergalactic coordinates to a triple of galactic coordinates is

 
 
Supergalactic and Galactic plane

The left column in this matrix is the image of the origin of the supergalactic system in the galactic system, the right column in this matrix is the image of the north pole of the supergalactic coordinates in the galactic system, and the middle column is the cross product (to complete the right-handed coordinate system).

The corresponding cartesian coordinate system allows points to be specified by coordinates (SGX, SGY, SGZ). In this system the supergalactic z-axis points towards the north supergalactic pole, the supergalactic x-axis points towards the zero point, and the supergalactic y-axis is perpendicular to both.

See also

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References

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  1. ^ Scoles, Sarah (4 October 2016). "How Vera Rubin confirmed dark matter". Astronomy.
  2. ^ Lahav, O.; et al. (1998). "The Supergalactic Plane revisited with the Optical Redshift Survey". arXiv:astro-ph/9809343.
  3. ^ Abarkahkašân, A. (n.d.). "An Etymological Dictionary of Astronomy and Astrophysics".
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