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Derivation of the Oort constants

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The Oort constants were first derived by Jan Oort in 1927[1] as a way to determine the rotation properties of the Milky Way from only the observed radial and transverse velocities and positions of local stars.

Consider a star in the midplane of the Galactic disk with Galactic longitude at a distance from the Sun. Assume that both the Sun and the star have circular orbits around the center of the Galaxy at radii of and from the galactic center and rotational velocities of and , respectively. The radial velocity and transverse velocity of the star as we observe from the position of the Sun are then:

Since we have assumed circular motion, the rotational velocity will be related to the angular velocity by and we can substitue this into our velocity expressions:

where we have used the angle difference identities to simply the expressions involving . From the geometry in Figure 1, we can see that the triangles formed between the galactic center, the Sun, and the star share a side or portions of sides, so the following relationships hold and substitutions can be made:

and

To put these expressions only in terms of the known quantities and , we take advantage of our assumption that the stars used for this analysis are local, i.e. is small, and take a Taylor expansion of about .

Additionally, if the distance to the star is much less than or then [2]. So:

Using the sine and cosine half angle formulae, we can rewrite these velocities as:

Now we can write the velocities in terms of our known quantities and two coefficients and :

where

At this stage, our observable velocities are related to these coefficients and the position of the star. How do these coefficients relate to the rotation properties of the galaxy? For a star in a circular orbit, we can express the derivative of the angular velocity with respect to radius in terms of the rotation velocity and radius and evaluate this at the location of the Sun:

so

is the Oort constant describing the shearing motion and is the Oort constant describing the rotation of the Galaxy. As described below, we can measure and from plotting these velocities, measured for many stars, against the galactic longitudes of these stars.

References

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  1. ^ J. H. Oort (1927-04-14), "Observational evidence confirming Lindblad's hypothesis of a rotation of the galactic system", Bulletin of the Astronomical Institutes of the Netherlands, 3 (120): 275–282.
  2. ^ Binney, J. (1998). Galactic Astronomy. Princeton: Princeton University Press. ISBN 9780691025650. OCLC 39108765. {{cite book}}: Unknown parameter |coauthors= ignored (|author= suggested) (help)