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In [[mathematics]], more specifically in the study of [[dynamical system]]s and [[differential equation]]s, a '''Liénard equation'''<ref>Liénard, A. (1928) "Etude des oscillations entretenues," ''Revue générale de l'électricité'' '''23''', pp. 901–912 and 946–954.</ref> is a second order differential equation, named after the French physicist [[Alfred-Marie Liénard]].
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During the development of [[radio]] and [[vacuum tube]] technology, Liénard equations were intensely studied as they can be used to model [[oscillating circuit]]s. Under certain additional assumptions '''Liénard's theorem''' guarantees the uniqueness and existence of a [[limit cycle]] for such a system.
 
==Definition==
 
Let ''f'' and ''g'' be two [[continuously differentiable]] functions on '''R''', with ''g'' an [[odd function]] and ''f'' an [[even function]]. Then the second order [[ordinary differential equation]] of the form
 
:<math>{d^2x \over dt^2}+f(x){dx \over dt}+g(x)=0</math>
 
is called the '''Liénard equation'''.
 
==Liénard system==
 
The equation can be transformed into an equivalent two-dimensional [[system of ordinary differential equation]]s. We define
:<math>F(x) := \int_0^x f(\xi) d\xi</math>
:<math>x_1:= x\,</math>
:<math>x_2:={dx \over dt} + F(x)</math>
then
 
:<math>
\begin{bmatrix}
\dot{x}_1 \\
\dot{x}_2
\end{bmatrix}
=
\mathbf{h}(x_1, x_2)
:=
\begin{bmatrix}
x_2 - F(x_1) \\
-g(x_1)
\end{bmatrix}
</math>
 
is called a '''Liénard system'''.
 
Alternatively, since Liénard equation itself is also an [[autonomous differential equation]], the substitution <math>v = {dx \over dt}</math> leads the Liénard equation to become a [[first order differential equation]]:
 
:<math>v{dv \over dx}+f(x)v+g(x)=0</math>
 
which belongs to [[Abel equation of the second kind]].<ref>[http://eqworld.ipmnet.ru/en/solutions/ode/ode0317.pdf Liénard equation] at [[eqworld]].</ref><ref>[http://eqworld.ipmnet.ru/en/solutions/ode/ode0125.pdf Abel equation of the second kind] at [[eqworld]].</ref>
 
==Example==
 
The [[Van der Pol oscillator]]
 
:<math>{d^2x \over dt^2}-\mu(1-x^2){dx \over dt} +x= 0</math>
 
is a Liénard equation.
 
==Liénard's theorem==
 
A Liénard system has a unique and [[Stability theory|stable]] [[limit cycle]] surrounding the origin if it satisfies the following additional properties:
* ''g''(''x'') > 0 for all ''x'' > 0;
* <math>\lim_{x \to \infty} F(x) := \lim_{x \to \infty} \int_0^x f(\xi) d\xi\ = \infty;</math>
* ''F''(''x'') has exactly one positive root at some value ''p'', where ''F''(''x'') < 0 for 0 < ''x'' < ''p'' and ''F''(''x'') > 0 and monotonic for ''x'' > ''p''.
 
==See also==
*[[Autonomous differential equation]]
*[[Abel equation of the second kind]]
 
==Footnotes==
 
{{reflist}}
 
==External links==
* {{springer|title=Liénard equation|id=p/l058790}}
* {{PlanetMath|title=LienardSystem|urlname=LienardSystem}}
 
{{DEFAULTSORT:Lienard equation}}
[[Category:Dynamical systems]]
[[Category:Differential equations]]
[[Category:Theorems in dynamical systems]]

Latest revision as of 16:38, 16 October 2014

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