Difference between revisions of "Liouville normal form"
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− | + | {{MSC|34A30|34B24}} | |
+ | {{TEX|done}} | ||
− | + | $ | |
+ | \newcommand{deriv}[2]{\frac{\mathrm{d}#1}{\mathrm{d}#2}} | ||
+ | \newcommand{derivn}[3]{\frac{\mathrm{d}^{#3}#1}{\mathrm{d}#2^{#3}}} | ||
+ | $ | ||
+ | The Liouville normal form is a way of writing a second-order ordinary linear differential equation | ||
+ | \begin{equation}\label{eq1} | ||
+ | \derivn{y}{x}{2} + | ||
+ | p(x)\deriv{y}{x} + | ||
+ | \left( | ||
+ | q(x) + \lambda r(x) | ||
+ | \right) y = 0, | ||
+ | \end{equation} | ||
in the form | in the form | ||
+ | \begin{equation}\label{eq2} | ||
+ | \derivn{\eta}{\xi}{2} + | ||
+ | \left( | ||
+ | \lambda + \phi(\xi) | ||
+ | \right) \eta = 0, | ||
+ | \end{equation} | ||
+ | where $\lambda$ is parameter. If $p(x) \in C^1$, $r(x) \in C^2$ and $r(x) > 0$, then equation \ref{eq1} reduces to the Liouville normal form \ref{eq2} by means of the substitution | ||
+ | \[ | ||
+ | \eta(\xi) = \Phi(x)y(x),\quad | ||
+ | \xi = \int_\alpha^x \sqrt{r(t)}\,\mathrm{d}t, \quad | ||
+ | \Phi(x) = r(x)^{1/4} | ||
+ | \exp\left( | ||
+ | \frac{1}{2}\int_\alpha^x p(t)\,\mathrm{d}t | ||
+ | \right), | ||
+ | \] | ||
+ | which is called the Liouville transformation (introduced in {{Cite|Li}}). The Liouville normal form plays an important role in the investigation of the asymptotic behaviour of solutions of \ref{eq1} for large values of the parameter $\lambda$ or the argument, and in the investigation of the asymptotics of eigenfunctions and eigenvalues of the [[Sturm–Liouville problem]] (see {{Cite|Ti}}). | ||
− | + | ====References==== | |
− | + | {| | |
− | + | |- | |
− | + | |valign="top"|{{Ref|In}}||valign="top"| E.L. Ince, "Ordinary differential equations", Dover, reprint (1956) | |
− | + | |- | |
− | + | |valign="top"|{{Ref|Ka}}||valign="top"| E. Kamke, "Differentialgleichungen: Lösungen und Lösungsmethoden", '''1. Gewöhnliche Differentialgleichungen''', Chelsea, reprint (1947) | |
− | + | |- | |
− | + | |valign="top"|{{Ref|Li}}||valign="top"| J. Liouville, ''J. Math. Pures Appl.'', '''2''' (1837) pp. 16–35 | |
− | + | |- | |
− | + | |valign="top"|{{Ref|Ti}}||valign="top"| E.C. Titchmarsh, "Eigenfunction expansions associated with second-order differential equations", '''1–2''', Clarendon Press (1946–1948) | |
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− | + | |} | |
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Latest revision as of 00:23, 30 July 2012
2020 Mathematics Subject Classification: Primary: 34A30 Secondary: 34B24 [MSN][ZBL]
$ \newcommand{deriv}[2]{\frac{\mathrm{d}#1}{\mathrm{d}#2}} \newcommand{derivn}[3]{\frac{\mathrm{d}^{#3}#1}{\mathrm{d}#2^{#3}}} $
The Liouville normal form is a way of writing a second-order ordinary linear differential equation \begin{equation}\label{eq1} \derivn{y}{x}{2} + p(x)\deriv{y}{x} + \left( q(x) + \lambda r(x) \right) y = 0, \end{equation} in the form \begin{equation}\label{eq2} \derivn{\eta}{\xi}{2} + \left( \lambda + \phi(\xi) \right) \eta = 0, \end{equation} where $\lambda$ is parameter. If $p(x) \in C^1$, $r(x) \in C^2$ and $r(x) > 0$, then equation \ref{eq1} reduces to the Liouville normal form \ref{eq2} by means of the substitution \[ \eta(\xi) = \Phi(x)y(x),\quad \xi = \int_\alpha^x \sqrt{r(t)}\,\mathrm{d}t, \quad \Phi(x) = r(x)^{1/4} \exp\left( \frac{1}{2}\int_\alpha^x p(t)\,\mathrm{d}t \right), \] which is called the Liouville transformation (introduced in [Li]). The Liouville normal form plays an important role in the investigation of the asymptotic behaviour of solutions of \ref{eq1} for large values of the parameter $\lambda$ or the argument, and in the investigation of the asymptotics of eigenfunctions and eigenvalues of the Sturm–Liouville problem (see [Ti]).
References
[In] | E.L. Ince, "Ordinary differential equations", Dover, reprint (1956) |
[Ka] | E. Kamke, "Differentialgleichungen: Lösungen und Lösungsmethoden", 1. Gewöhnliche Differentialgleichungen, Chelsea, reprint (1947) |
[Li] | J. Liouville, J. Math. Pures Appl., 2 (1837) pp. 16–35 |
[Ti] | E.C. Titchmarsh, "Eigenfunction expansions associated with second-order differential equations", 1–2, Clarendon Press (1946–1948) |
Liouville normal form. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Liouville_normal_form&oldid=19126