Difference between revisions of "Morse theory"

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(See also)
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* [[Digital Morse theory]]
 
* [[Digital Morse theory]]
 +
* [[Differential topology]]
 
* [[Discrete Morse theory]]
 
* [[Discrete Morse theory]]
 
* [[Jacobi set]]
 
* [[Jacobi set]]
 
* [[Lagrangian Grassmannian]]
 
* [[Lagrangian Grassmannian]]
 
* [[Lusternik–Schnirelmann category]]
 
* [[Lusternik–Schnirelmann category]]
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* [[Manifold]]
 
* [[Mathematics]]
 
* [[Mathematics]]
 
* [[Morse–Smale system]]
 
* [[Morse–Smale system]]
 
* [[Sard's lemma]]
 
* [[Sard's lemma]]
 
* [[Stratified Morse theory]]
 
* [[Stratified Morse theory]]
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* [[Topological space]]
  
 
== External links ==  
 
== External links ==  
  
 
* [https://en.wikipedia.org/wiki/Morse_theory Morse theory] @ Wikipedia
 
* [https://en.wikipedia.org/wiki/Morse_theory Morse theory] @ Wikipedia

Revision as of 04:43, 7 December 2015

In the mathematical field of differential topology, Morse theory enables one to analyze the topology of a manifold by studying differentiable functions on that manifold.

(TO DO: expand, organize, cross-reference, illustrate.)

Description

According to the basic insights of Marston Morse, a typical differentiable function on a manifold will reflect the topology quite directly. Morse theory allows one to find CW structures and handle decompositions on manifolds and to obtain substantial information about their homology.

Before Morse, Arthur Cayley and James Clerk Maxwell had developed some of the ideas of Morse theory in the context of topography. Morse originally applied his theory to geodesics (critical points of the energy functional on paths). These techniques were used in Raoul Bott's proof of his periodicity theorem.

The analogue of Morse theory for complex manifolds is Picard–Lefschetz theory.

See also

External links

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