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Leonard–Merritt mass estimator

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In astronomy, the Leonard–Merritt mass estimator is a formula for estimating the mass of a spherical stellar system using the apparent (angular) positions and proper motions of its component stars. The distance to the stellar system must also be known.

Like the virial theorem, the Leonard–Merritt estimator yields correct results regardless of the degree of velocity anisotropy. Its statistical properties are superior to those of the virial theorem. However, it requires that two components of the velocity be known for every star, rather than just one for the virial theorem.[1]

The estimator has the general form

The angle brackets denote averages over the ensemble of observed stars. M(r) is the mass contained within a distance r from the center of the stellar system; R is the projected distance of a star from the apparent center; VR and VT are the components of a star's velocity parallel to, and perpendicular to, the apparent radius vector; and G is the gravitational constant.

Like all estimators based on moments of the Jeans equations, the Leonard–Merritt estimator requires an assumption about the relative distribution of mass and light. As a result, it is most useful when applied to stellar systems that have one of two properties:

  1. All or almost all of the mass resides in a central object, or,
  2. the mass is distributed in the same way as the observed stars.

Case (1) applies to the nucleus of a galaxy containing a supermassive black hole. Case (2) applies to a stellar system composed entirely of luminous stars (i.e. no dark matter or black holes).

In a cluster with constant mass-to-light ratio and total mass MT, the Leonard–Merritt estimator becomes:

On the other hand, if all the mass is located in a central point of mass M0, then:

In its second form, the Leonard–Merritt estimator has been successfully used to measure the mass of the supermassive black hole at the center of the Milky Way galaxy.[2][3]

See also

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References

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  1. ^ Leonard, Peter; Merritt, David (10 April 1989). "The Mass of the Open Star Cluster M35 as Derived from Proper Motions". The Astrophysical Journal. 339: 195–208. Bibcode:1989ApJ...339..195L. doi:10.1086/167287.
  2. ^ Schödel, R; Ott, T; Genzel, R; Eckart, A; Mouawad, N; Alexander, T (1 October 2003). "Stellar Dynamics in the Central Arcsecond of Our Galaxy". The Astrophysical Journal. 596 (2): 1015–1034. arXiv:astro-ph/0306214. Bibcode:2003ApJ...596.1015S. doi:10.1086/378122. S2CID 17719367.
  3. ^ Schödel, Rainer; Merritt, David; Eckart, Andreas (1 July 2009). "The nuclear star cluster of the Milky Way: proper motions and mass". Astronomy and Astrophysics. 502 (1): 91–111. arXiv:0902.3892. Bibcode:2009A&A...502...91S. doi:10.1051/0004-6361/200810922. S2CID 219559.