Palais–Smale compactness condition

The Palais–Smale compactness condition, named after Richard Palais and Stephen Smale, is a hypothesis for some theorems of the calculus of variations. It is useful for guaranteeing the existence of certain kinds of critical points, in particular saddle points. The Palais-Smale condition is a condition on the functional that one is trying to extremize.

In finite-dimensional spaces, the Palais–Smale condition for a continuously differentiable real-valued function is satisfied automatically for proper maps: functions which do not take unbounded sets into bounded sets. In the calculus of variations, where one is typically interested in infinite-dimensional function spaces, the condition is necessary because some extra notion of compactness beyond simple boundedness is needed. See, for example, the proof of the mountain pass theorem in section 8.5 of Evans.

Strong formulation

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A continuously Fréchet differentiable functional   from a Hilbert space H to the reals satisfies the Palais–Smale condition if every sequence   such that:

  •   is bounded, and
  •   in H

has a convergent subsequence in H.

Weak formulation

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Let X be a Banach space and   be a Gateaux differentiable functional. The functional   is said to satisfy the weak Palais–Smale condition if for each sequence   such that

  •  ,
  •   in  ,
  •   for all  ,

there exists a critical point   of   with

 

References

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  • Evans, Lawrence C. (1998). Partial Differential Equations. Providence, Rhode Island: American Mathematical Society. ISBN 0-8218-0772-2.
  • Mawhin, Jean; Willem, Michel (2010). "Origin and Evolution of the Palais–Smale Condition in Critical Point Theory". Journal of Fixed Point Theory and Applications. 7 (2): 265–290. doi:10.1007/s11784-010-0019-7. S2CID 122094186.
  • Palais, R. S.; Smale, S. (1964). "A generalized Morse theory". Bulletin of the American Mathematical Society. 70: 165–172. doi:10.1090/S0002-9904-1964-11062-4.