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## Two interacting bodies in an external field

Hope, MO is the right place for this question (if not so: where would you pose it?).

Consider a two-body system in classical mechanics. As long as the interaction depends only on the distance of the two bodies, the two-body problem is integrable/solvable. Now consider the two bodies in a fixed external field. (This is only one step away from a three-body system that is known to be non-integrable in general, but obviously different from it.)

Question: Can the conditions on the combination of interaction and external field be explicitely given for the problem to be integrable/solvable?

It might be the case that the problem is always solvable. In this case the following reference request becomes predominant:

Reference request: Where can I find an explicit and elaborated treatment of this problem?

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The scholarpedia article on the 3-body problem scholarpedia.org/article/Three_body_problem has a section about this case: the astronomer's three-body problem: i) the planetary problem. Your questions are not answered, which suggests to me that the first question might have a negative answer. – JosÃ© Figueroa-O'Farrill Aug 29 2010 at 13:39

I seriously doubt there is any general criteria. However there are more than one beautiful explicit examples of an external field which lead to an integrable problem. The simplest and probably best known is that of a constant field. An absolutely beautiful description of this and its solution can be found in the book Essais sur le Mouvement des Corps Cosmiques' by V. Beletski, ch. 3. (See eq. 3.2.1) It illustrates the plethora of qualitatively different phenomenon possible within a single integrable system.
As a wierd tangent, the anisotropic Kepler problem': keep the same potential but change the kinetic term to $a p_x ^2 + b p_y ^2$, $a \ne b$ is known to be non-integrable and Gutzwiller made an early career on this problem.