Difference between revisions of "Saddle node"
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+ | $#C+1 = 39 : ~/encyclopedia/old_files/data/S083/S.0803040 Saddle node | ||
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− | + | A type of arrangement of the trajectories in a neighbourhood of a singular point $ x _ {0} $ | |
+ | of an [[Autonomous system|autonomous system]] of second-order ordinary differential equations | ||
− | + | $$ \tag{* } | |
+ | \dot{x} = f ( x),\ \ | ||
+ | x \in \mathbf R ^ {2} ,\ \ | ||
+ | f: G \rightarrow \mathbf R ^ {2} , | ||
+ | $$ | ||
− | a) < | + | $ f \in C ( G) $, |
+ | where $ G $ | ||
+ | is the domain of uniqueness. This type is characterized as follows. Suppose that a certain neighbourhood $ U $ | ||
+ | of $ x _ {0} $ | ||
+ | is partitioned into $ m $( | ||
+ | $ 3 \leq m < + \infty $) | ||
+ | curvilinear sectors (cf. [[Sector in the theory of ordinary differential equations|Sector in the theory of ordinary differential equations]]) by semi-trajectories (the separatrices of the saddle node) approaching $ x _ {0} $. | ||
+ | Suppose that $ h $ | ||
+ | of these sectors, $ 2 \leq h < m $, | ||
+ | are saddle sectors and that the others are open nodal sectors, and suppose also that each semi-trajectory approaching $ x _ {0} $, | ||
+ | completed with $ x _ {0} $, | ||
+ | touches it in a definite direction. Then $ x _ {0} $ | ||
+ | is called a saddle node. | ||
− | + | A saddle node is unstable in the sense of Lyapunov (cf. [[Lyapunov stability|Lyapunov stability]]). Its Poincaré index is $ 1 - ( h/2) $( | |
+ | cf. [[Singular point|Singular point]]). If $ f \in C ^ {1} ( G) $ | ||
+ | and the matrix $ A = f ^ { \prime } ( x _ {0} ) \neq 0 $, | ||
+ | then the singular point $ x _ {0} $ | ||
+ | can be a saddle node for (*) only when the eigenvalues $ \lambda _ {1} , \lambda _ {2} $ | ||
+ | of $ A $ | ||
+ | satisfy one of the following conditions: | ||
− | In any of these cases | + | a) $ \lambda _ {1} = 0 \neq \lambda _ {2} $; |
+ | |||
+ | b) $ \lambda _ {1} = \lambda _ {2} = 0 $. | ||
+ | |||
+ | In any of these cases $ x _ {0} $ | ||
+ | can also be a [[Saddle|saddle]] or a [[Node|node]] for (*), and in case b), also a point of another type. If it is a saddle node, then $ m = 3 $, | ||
+ | $ h = 2 $, | ||
+ | and all the semi-trajectories of the system that approach $ x _ {0} $ | ||
+ | touch at this point the directions defined by the eigenvectors of $ A $( | ||
+ | see Fig. aand Fig. b, where the heavy lines are the separatrices at the saddle node $ x _ {0} = 0 $, | ||
+ | and the arrows indicate the direction of motion along the trajectories of the system as $ t $ | ||
+ | increases; they can also be in the opposite direction). | ||
<img style="border:1px solid;" src="https://www.encyclopediaofmath.org/legacyimages/common_img/s083040a.gif" /> | <img style="border:1px solid;" src="https://www.encyclopediaofmath.org/legacyimages/common_img/s083040a.gif" /> | ||
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====References==== | ====References==== | ||
<table><TR><TD valign="top">[1]</TD> <TD valign="top"> N.N. Bautin, E.A. Leontovich, "Methods and means for a qualitative investigation of dynamical systems on the plane" , Moscow (1976) (In Russian)</TD></TR></table> | <table><TR><TD valign="top">[1]</TD> <TD valign="top"> N.N. Bautin, E.A. Leontovich, "Methods and means for a qualitative investigation of dynamical systems on the plane" , Moscow (1976) (In Russian)</TD></TR></table> | ||
− | |||
− | |||
====Comments==== | ====Comments==== | ||
− | The flow near a saddle node does not enjoy structural stability: If | + | The flow near a saddle node does not enjoy structural stability: If $ x _ {0} $ |
+ | is a saddle node for (*), there is a neighbourhood $ N $ | ||
+ | of $ x _ {0} $ | ||
+ | in $ \mathbf R ^ {2} $ | ||
+ | such that for any $ \epsilon > 0 $ | ||
+ | there is a system $ \dot{x} = y( x) $ | ||
+ | having no equilibrium in $ N $, | ||
+ | such that $ | f- g | < \epsilon $ | ||
+ | and $ | ( \partial f / \partial x _ {i} ) - ( \partial g/ \partial x _ {i} ) | < \epsilon $, | ||
+ | $ i = 1, 2 $. | ||
+ | However, the saddle node [[Bifurcation|bifurcation]] is robust and cannot be perturbed away ([[#References|[a1]]]) (cf. also [[Rough system|Rough system]]). | ||
====References==== | ====References==== | ||
<table><TR><TD valign="top">[a1]</TD> <TD valign="top"> J. Guckenheimer, P. Holmes, "Non-linear oscillations, dynamical systems, and bifurcations of vector fields" , Springer (1983)</TD></TR><TR><TD valign="top">[a2]</TD> <TD valign="top"> A.A. Andronov, E.A. Leontovich, I.I. Gordon, A.G. Maier, "Qualitative theory of second-order dynamic systems" , Wiley (1973) (Translated from Russian)</TD></TR></table> | <table><TR><TD valign="top">[a1]</TD> <TD valign="top"> J. Guckenheimer, P. Holmes, "Non-linear oscillations, dynamical systems, and bifurcations of vector fields" , Springer (1983)</TD></TR><TR><TD valign="top">[a2]</TD> <TD valign="top"> A.A. Andronov, E.A. Leontovich, I.I. Gordon, A.G. Maier, "Qualitative theory of second-order dynamic systems" , Wiley (1973) (Translated from Russian)</TD></TR></table> |
Revision as of 08:12, 6 June 2020
A type of arrangement of the trajectories in a neighbourhood of a singular point $ x _ {0} $
of an autonomous system of second-order ordinary differential equations
$$ \tag{* } \dot{x} = f ( x),\ \ x \in \mathbf R ^ {2} ,\ \ f: G \rightarrow \mathbf R ^ {2} , $$
$ f \in C ( G) $, where $ G $ is the domain of uniqueness. This type is characterized as follows. Suppose that a certain neighbourhood $ U $ of $ x _ {0} $ is partitioned into $ m $( $ 3 \leq m < + \infty $) curvilinear sectors (cf. Sector in the theory of ordinary differential equations) by semi-trajectories (the separatrices of the saddle node) approaching $ x _ {0} $. Suppose that $ h $ of these sectors, $ 2 \leq h < m $, are saddle sectors and that the others are open nodal sectors, and suppose also that each semi-trajectory approaching $ x _ {0} $, completed with $ x _ {0} $, touches it in a definite direction. Then $ x _ {0} $ is called a saddle node.
A saddle node is unstable in the sense of Lyapunov (cf. Lyapunov stability). Its Poincaré index is $ 1 - ( h/2) $( cf. Singular point). If $ f \in C ^ {1} ( G) $ and the matrix $ A = f ^ { \prime } ( x _ {0} ) \neq 0 $, then the singular point $ x _ {0} $ can be a saddle node for (*) only when the eigenvalues $ \lambda _ {1} , \lambda _ {2} $ of $ A $ satisfy one of the following conditions:
a) $ \lambda _ {1} = 0 \neq \lambda _ {2} $;
b) $ \lambda _ {1} = \lambda _ {2} = 0 $.
In any of these cases $ x _ {0} $ can also be a saddle or a node for (*), and in case b), also a point of another type. If it is a saddle node, then $ m = 3 $, $ h = 2 $, and all the semi-trajectories of the system that approach $ x _ {0} $ touch at this point the directions defined by the eigenvectors of $ A $( see Fig. aand Fig. b, where the heavy lines are the separatrices at the saddle node $ x _ {0} = 0 $, and the arrows indicate the direction of motion along the trajectories of the system as $ t $ increases; they can also be in the opposite direction).
Figure: s083040a
Figure: s083040b
References
[1] | N.N. Bautin, E.A. Leontovich, "Methods and means for a qualitative investigation of dynamical systems on the plane" , Moscow (1976) (In Russian) |
Comments
The flow near a saddle node does not enjoy structural stability: If $ x _ {0} $ is a saddle node for (*), there is a neighbourhood $ N $ of $ x _ {0} $ in $ \mathbf R ^ {2} $ such that for any $ \epsilon > 0 $ there is a system $ \dot{x} = y( x) $ having no equilibrium in $ N $, such that $ | f- g | < \epsilon $ and $ | ( \partial f / \partial x _ {i} ) - ( \partial g/ \partial x _ {i} ) | < \epsilon $, $ i = 1, 2 $. However, the saddle node bifurcation is robust and cannot be perturbed away ([a1]) (cf. also Rough system).
References
[a1] | J. Guckenheimer, P. Holmes, "Non-linear oscillations, dynamical systems, and bifurcations of vector fields" , Springer (1983) |
[a2] | A.A. Andronov, E.A. Leontovich, I.I. Gordon, A.G. Maier, "Qualitative theory of second-order dynamic systems" , Wiley (1973) (Translated from Russian) |
Saddle node. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Saddle_node&oldid=18239